From 6f6735f9a81ba713a74b35e4621022fe6b657bd4 Mon Sep 17 00:00:00 2001 From: Bernd Hahnebach Date: Fri, 1 Mar 2019 19:57:36 +0100 Subject: [PATCH] Material: cards and templates, sort and move all mechanical group attributes --- .../StandardMaterial/ABS-Generic.FCMat | 8 +- .../Acrylic-Glass-Generic.FCMat | 8 +- .../Material/StandardMaterial/AlMg3F24.FCMat | 8 +- .../StandardMaterial/AlMgSi1F31.FCMat | 8 +- .../StandardMaterial/AlZn4-5Mg1F35.FCMat | 8 +- .../StandardMaterial/Aluminum-6061-T6.FCMat | 6 +- .../StandardMaterial/CalculiX-Steel.FCMat | 4 +- .../StandardMaterial/Concrete-Generic.FCMat | 4 +- .../StandardMaterial/Glass-E-GlassFibre.FCMat | 2 +- .../StandardMaterial/Glass-Generic.FCMat | 4 +- .../Glass-S2-GlassFibre.FCMat | 2 +- src/Mod/Material/StandardMaterial/None.FCMat | 6 +- .../StandardMaterial/PA6-Generic.FCMat | 8 +- .../StandardMaterial/PET-Generic.FCMat | 8 +- .../StandardMaterial/PLA-Generic.FCMat | 8 +- .../StandardMaterial/PP-Generic.FCMat | 8 +- .../StandardMaterial/PTFE-Generic.FCMat | 8 +- .../StandardMaterial/PVC-Generic.FCMat | 6 +- .../StandardMaterial/Steel-15CrNi6.FCMat | 8 +- .../StandardMaterial/Steel-17CrNiMo6.FCMat | 8 +- .../StandardMaterial/Steel-1C22.FCMat | 8 +- .../StandardMaterial/Steel-1C35.FCMat | 8 +- .../StandardMaterial/Steel-1C45.FCMat | 8 +- .../StandardMaterial/Steel-1C60.FCMat | 8 +- .../StandardMaterial/Steel-20NiCrMo2.FCMat | 8 +- .../StandardMaterial/Steel-28Mn6.FCMat | 8 +- .../StandardMaterial/Steel-2C10.FCMat | 8 +- .../StandardMaterial/Steel-30CrNiMo8.FCMat | 8 +- .../StandardMaterial/Steel-34CrNiMo6.FCMat | 8 +- .../StandardMaterial/Steel-36CrNiMo4.FCMat | 8 +- .../StandardMaterial/Steel-36NiCrMo16.FCMat | 8 +- .../StandardMaterial/Steel-3C15.FCMat | 8 +- .../StandardMaterial/Steel-3C22.FCMat | 8 +- .../StandardMaterial/Steel-3C35.FCMat | 8 +- .../StandardMaterial/Steel-3V45.FCMat | 8 +- .../Material/StandardMaterial/Steel-C10.FCMat | 8 +- .../Material/StandardMaterial/Steel-C15.FCMat | 8 +- .../StandardMaterial/Steel-C22E.FCMat | 8 +- .../StandardMaterial/Steel-C25E.FCMat | 8 +- .../StandardMaterial/Steel-C30E.FCMat | 8 +- .../StandardMaterial/Steel-C40E.FCMat | 8 +- .../StandardMaterial/Steel-C50E.FCMat | 8 +- .../StandardMaterial/Steel-C55E.FCMat | 8 +- .../StandardMaterial/Steel-C60E.FCMat | 8 +- .../StandardMaterial/Steel-E295-GC.FCMat | 8 +- .../StandardMaterial/Steel-E295.FCMat | 8 +- .../StandardMaterial/Steel-E335-GC.FCMat | 8 +- .../StandardMaterial/Steel-E335.FCMat | 8 +- .../StandardMaterial/Steel-E360-GC.FCMat | 8 +- .../StandardMaterial/Steel-E360.FCMat | 8 +- .../StandardMaterial/Steel-EN-GJL-100.FCMat | 8 +- .../StandardMaterial/Steel-EN-GJL-150.FCMat | 8 +- .../StandardMaterial/Steel-EN-GJL-200.FCMat | 8 +- .../StandardMaterial/Steel-EN-GJL-250.FCMat | 8 +- .../StandardMaterial/Steel-EN-GJL-300.FCMat | 8 +- .../StandardMaterial/Steel-EN-GJL-350.FCMat | 8 +- .../Steel-EN-GJMB-350-10.FCMat | 8 +- .../Steel-EN-GJMB-550-4.FCMat | 8 +- .../Steel-EN-GJMB-650-2.FCMat | 8 +- .../Steel-EN-GJMW-350-4.FCMat | 8 +- .../Steel-EN-GJMW-360-12.FCMat | 8 +- .../Steel-EN-GJMW-400-5.FCMat | 8 +- .../Steel-EN-GJMW-450-7.FCMat | 8 +- .../Steel-EN-GJS-400-15.FCMat | 8 +- .../StandardMaterial/Steel-EN-GJS-500-7.FCMat | 8 +- .../StandardMaterial/Steel-EN-GJS-600-3.FCMat | 8 +- .../StandardMaterial/Steel-EN-GJS-700-2.FCMat | 8 +- .../StandardMaterial/Steel-EN-GJS-800-1.FCMat | 8 +- .../StandardMaterial/Steel-G16Mn5.FCMat | 8 +- .../StandardMaterial/Steel-G200.FCMat | 8 +- .../StandardMaterial/Steel-G20Mn5.FCMat | 8 +- .../StandardMaterial/Steel-G230.FCMat | 8 +- .../StandardMaterial/Steel-G260.FCMat | 8 +- .../StandardMaterial/Steel-G300.FCMat | 8 +- .../StandardMaterial/Steel-G30Mn5.FCMat | 8 +- .../StandardMaterial/Steel-Generic.FCMat | 4 +- .../StandardMaterial/Steel-S185.FCMat | 8 +- .../StandardMaterial/Steel-S235JO.FCMat | 8 +- .../StandardMaterial/Steel-S235JR.FCMat | 8 +- .../StandardMaterial/Steel-S235JRG1.FCMat | 8 +- .../StandardMaterial/Steel-S260NC.FCMat | 8 +- .../StandardMaterial/Steel-S275JO.FCMat | 8 +- .../StandardMaterial/Steel-S275JR.FCMat | 8 +- .../StandardMaterial/Steel-S275N.FCMat | 8 +- .../StandardMaterial/Steel-S335JO.FCMat | 8 +- .../StandardMaterial/Steel-S335JR.FCMat | 8 +- .../StandardMaterial/Steel-S335N.FCMat | 8 +- .../StandardMaterial/Steel-S340MC.FCMat | 8 +- .../StandardMaterial/Steel-S355J2G3.FCMat | 8 +- .../StandardMaterial/Steel-S380MC.FCMat | 8 +- .../StandardMaterial/Steel-S420MC.FCMat | 8 +- .../StandardMaterial/Steel-S420N.FCMat | 8 +- .../StandardMaterial/Steel-S460MC.FCMat | 8 +- .../StandardMaterial/Steel-S460N.FCMat | 8 +- .../StandardMaterial/Steel-S500MC.FCMat | 8 +- .../StandardMaterial/Steel-S550MC.FCMat | 8 +- .../StandardMaterial/Steel-S690MC.FCMat | 8 +- .../StandardMaterial/Steel-St-37-2K.FCMat | 8 +- .../StandardMaterial/Steel-St-E-255.FCMat | 8 +- .../StandardMaterial/Steel-St-E-315.FCMat | 8 +- .../StandardMaterial/Steel-St-E-380.FCMat | 8 +- .../StandardMaterial/Steel-St-E-460.FCMat | 8 +- .../StandardMaterial/Steel-St-E-500.FCMat | 8 +- .../Steel-X2CrNiMoN17-13-3.FCMat | 8 +- .../StandardMaterial/Steel-X2CrNiN24-4.FCMat | 8 +- .../StandardMaterial/Steel-X39CrMo17-1.FCMat | 8 +- .../Steel-X3CrNiMo13-14.FCMat | 8 +- .../StandardMaterial/Steel-X5CrNi18-10.FCMat | 8 +- .../Steel-X5CrNiMo17-12-2.FCMat | 8 +- .../Steel-X6CrNiTi18-10.FCMat | 8 +- .../Material/StandardMaterial/TEMPLATE.FCMat | 48 ++-- .../StandardMaterial/Tools/Materials.csv | 224 +++++++++--------- .../StandardMaterial/Tools/Materials.ods | Bin 24391 -> 24205 bytes .../Material/StandardMaterial/Tools/headers | 18 +- .../StandardMaterial/Wood-Generic.FCMat | 4 +- 115 files changed, 570 insertions(+), 570 deletions(-) diff --git a/src/Mod/Material/StandardMaterial/ABS-Generic.FCMat b/src/Mod/Material/StandardMaterial/ABS-Generic.FCMat index 6566732cc986..787214ea8def 100644 --- a/src/Mod/Material/StandardMaterial/ABS-Generic.FCMat +++ b/src/Mod/Material/StandardMaterial/ABS-Generic.FCMat @@ -8,12 +8,12 @@ Name = ABS Description = This is a blend AcrylnitrilButadienStyrol (ABS) material card. The values are at the low end of the spectrum. If you need a more precise material definition use the more specialised ABS-blend cards. Father = Thermoplast SourceURL = http://www.matweb.com/search/DataSheet.aspx?MatGUID=eb7a78f5948d481c9493a67f0d089646 -YoungsModulus = 2300 MPa -UltimateTensileStrength = 38.8 MPa -PoissonRatio = 0.37 Density = 1060 kg/m^3 +PoissonRatio = 0.37 +UltimateTensileStrength = 38.8 MPa +YieldStrength = 44.1 MPa +YoungsModulus = 2300 MPa SpecificHeat = 2050 J/kg/K ThermalConductivity = 0.158 W/m/K ThermalExpansionCoefficient = 0.000093 m/m/K -YieldStrength = 44.1 MPa ProductURL = https://en.wikipedia.org/wiki/Acrylonitrile_butadiene_styrene diff --git a/src/Mod/Material/StandardMaterial/Acrylic-Glass-Generic.FCMat b/src/Mod/Material/StandardMaterial/Acrylic-Glass-Generic.FCMat index 58e03add813e..d00c32ba6585 100644 --- a/src/Mod/Material/StandardMaterial/Acrylic-Glass-Generic.FCMat +++ b/src/Mod/Material/StandardMaterial/Acrylic-Glass-Generic.FCMat @@ -9,14 +9,14 @@ Description = Poly(methyl methacrylate) (PMMA, acrylic, acrylic glass, trade nam DescriptionPL = Szkło akrylowe (szkło organiczne; inaczej pleksi, pleksiglas, metapleks) – przezroczyste tworzywo sztuczne, którego głównym składnikiem jest polimer – poli(metakrylan metylu) (PMMA). Father = of the material, i.e. for PLA is Thermoplast, for Steel is Metal Thermoplast SourceURL = http://www.matweb.com/search/DataSheet.aspx?MatGUID=632572aeef2a4224b5ac8fbd4f1b6f77 -YoungsModulus = 2550 MPa -UltimateTensileStrength = 57.7 MPa -PoissonRatio = 0.38 CompressiveStrength = 103 MPa Density = 1160 kg/m^3 +PoissonRatio = 0.38 ShearModulus = 1.08 GPa +UltimateTensileStrength = 57.7 MPa +YieldStrength = 73.7 MPa +YoungsModulus = 2550 MPa SpecificHeat = 1480 J/kg/K ThermalConductivity = 0.193 W/m/K ThermalExpansionCoefficient = 0.000075 m/m/K -YieldStrength = 73.7 MPa ProductURL = https://en.wikipedia.org/wiki/Poly(methyl_methacrylate) diff --git a/src/Mod/Material/StandardMaterial/AlMg3F24.FCMat b/src/Mod/Material/StandardMaterial/AlMg3F24.FCMat index 230c04a367f7..6e1551de1c22 100644 --- a/src/Mod/Material/StandardMaterial/AlMg3F24.FCMat +++ b/src/Mod/Material/StandardMaterial/AlMg3F24.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Aluminium KindOfMaterialDE = Aluminium MaterialNumber = 3.3535.26 Norm = DIN 1725 -YoungsModulus = 70000 MPa -UltimateTensileStrength = 250 MPa -PoissonRatio = 0.3 Density = 2700 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 27000 MPa -ThermalExpansionCoefficient = 0.000023 m/m/K UltimateStrain = 5 +UltimateTensileStrength = 250 MPa YieldStrength = 180 MPa +YoungsModulus = 70000 MPa +ThermalExpansionCoefficient = 0.000023 m/m/K diff --git a/src/Mod/Material/StandardMaterial/AlMgSi1F31.FCMat b/src/Mod/Material/StandardMaterial/AlMgSi1F31.FCMat index 739910e4b035..a03e4eab5ab1 100644 --- a/src/Mod/Material/StandardMaterial/AlMgSi1F31.FCMat +++ b/src/Mod/Material/StandardMaterial/AlMgSi1F31.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Aluminium KindOfMaterialDE = Aluminium MaterialNumber = 3.2315.72 Norm = DIN 1725 -YoungsModulus = 70000 MPa -UltimateTensileStrength = 310 MPa -PoissonRatio = 0.3 Density = 2700 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 27000 MPa -ThermalExpansionCoefficient = 0.000023 m/m/K UltimateStrain = 10 +UltimateTensileStrength = 310 MPa YieldStrength = 260 MPa +YoungsModulus = 70000 MPa +ThermalExpansionCoefficient = 0.000023 m/m/K diff --git a/src/Mod/Material/StandardMaterial/AlZn4-5Mg1F35.FCMat b/src/Mod/Material/StandardMaterial/AlZn4-5Mg1F35.FCMat index 4578eeb5235a..5d83b40e871e 100644 --- a/src/Mod/Material/StandardMaterial/AlZn4-5Mg1F35.FCMat +++ b/src/Mod/Material/StandardMaterial/AlZn4-5Mg1F35.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Aluminium KindOfMaterialDE = Aluminium MaterialNumber = 3.4335.71 Norm = DIN 1725 -YoungsModulus = 70000 MPa -UltimateTensileStrength = 350 MPa -PoissonRatio = 0.3 Density = 2700 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 27000 MPa -ThermalExpansionCoefficient = 0.000023 m/m/K UltimateStrain = 10 +UltimateTensileStrength = 350 MPa YieldStrength = 290 MPa +YoungsModulus = 70000 MPa +ThermalExpansionCoefficient = 0.000023 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Aluminum-6061-T6.FCMat b/src/Mod/Material/StandardMaterial/Aluminum-6061-T6.FCMat index 66a680516ca0..be4d55a41543 100644 --- a/src/Mod/Material/StandardMaterial/Aluminum-6061-T6.FCMat +++ b/src/Mod/Material/StandardMaterial/Aluminum-6061-T6.FCMat @@ -9,9 +9,9 @@ Description = Precipitation-hardened, Nonferrous Aluminum alloy Father = Metal KindOfMaterial = Aluminium KindOfMaterialDE = Aluminium -YoungsModulus = 69000 MPa -UltimateTensileStrength = 310 MPa -PoissonRatio = 0.33 Density = 2700 kg/m^3 +PoissonRatio = 0.33 +UltimateTensileStrength = 310 MPa +YoungsModulus = 69000 MPa ThermalConductivity = 167 W/m/K ProductURL = https://en.wikipedia.org/wiki/6061_aluminium_alloy diff --git a/src/Mod/Material/StandardMaterial/CalculiX-Steel.FCMat b/src/Mod/Material/StandardMaterial/CalculiX-Steel.FCMat index 77116a788872..dbb513c4d766 100644 --- a/src/Mod/Material/StandardMaterial/CalculiX-Steel.FCMat +++ b/src/Mod/Material/StandardMaterial/CalculiX-Steel.FCMat @@ -7,9 +7,9 @@ Name = CalculiX-Steel Description = Standard steel material for CalculiX sample calculations Father = Metal -YoungsModulus = 210000 MPa -PoissonRatio = 0.3 Density = 7900 kg/m^3 +PoissonRatio = 0.3 +YoungsModulus = 210000 MPa SpecificHeat = 590 J/kg/K ThermalConductivity = 43 W/m/K ThermalExpansionCoefficient = 0.000012 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Concrete-Generic.FCMat b/src/Mod/Material/StandardMaterial/Concrete-Generic.FCMat index 0a695c5a810f..5f4d193ed388 100644 --- a/src/Mod/Material/StandardMaterial/Concrete-Generic.FCMat +++ b/src/Mod/Material/StandardMaterial/Concrete-Generic.FCMat @@ -8,8 +8,8 @@ Name = Concrete Description = A standard C-25 construction concrete Father = Aggregate StandardCode = Masterformat 03 33 13 -YoungsModulus = 32000 MPa -PoissonRatio = 0.17 CompressiveStrength = 25 MPa Density = 2400 kg/m^3 +PoissonRatio = 0.17 +YoungsModulus = 32000 MPa ProductURL = https://en.wikipedia.org/wiki/Concrete diff --git a/src/Mod/Material/StandardMaterial/Glass-E-GlassFibre.FCMat b/src/Mod/Material/StandardMaterial/Glass-E-GlassFibre.FCMat index 04c32ab47f9d..b90a026305ad 100644 --- a/src/Mod/Material/StandardMaterial/Glass-E-GlassFibre.FCMat +++ b/src/Mod/Material/StandardMaterial/Glass-E-GlassFibre.FCMat @@ -7,7 +7,7 @@ Name = Glass-E Description = Glass Fibre Father = Glass -UltimateTensileStrength = 3445 MPa CompressiveStrength = 1080 MPa Density = 2580 kg/m^3 +UltimateTensileStrength = 3445 MPa ProductURL = https://en.wikipedia.org/wiki/Glass_fiber diff --git a/src/Mod/Material/StandardMaterial/Glass-Generic.FCMat b/src/Mod/Material/StandardMaterial/Glass-Generic.FCMat index 96ca38c61753..f34ffa66315d 100644 --- a/src/Mod/Material/StandardMaterial/Glass-Generic.FCMat +++ b/src/Mod/Material/StandardMaterial/Glass-Generic.FCMat @@ -9,8 +9,8 @@ Description = Generic soda-lime glass DescriptionDE = Normalglas DescriptionPL = Szkło sodowe Father = Glass -YoungsModulus = 72000 MPa -PoissonRatio = 0.22 Density = 2520 kg/m^3 +PoissonRatio = 0.22 +YoungsModulus = 72000 MPa ThermalExpansionCoefficient = 0.000009 m/m/K ProductURL = https://en.wikipedia.org/wiki/Soda-lime_glass diff --git a/src/Mod/Material/StandardMaterial/Glass-S2-GlassFibre.FCMat b/src/Mod/Material/StandardMaterial/Glass-S2-GlassFibre.FCMat index 083c38a8ba3e..6b1b5bf22304 100644 --- a/src/Mod/Material/StandardMaterial/Glass-S2-GlassFibre.FCMat +++ b/src/Mod/Material/StandardMaterial/Glass-S2-GlassFibre.FCMat @@ -7,7 +7,7 @@ Name = Glass-S2 Description = Glass Fibre Father = Glass -UltimateTensileStrength = 4890 MPa CompressiveStrength = 1600 MPa Density = 2460 kg/m^3 +UltimateTensileStrength = 4890 MPa ProductURL = https://en.wikipedia.org/wiki/Glass_fiber diff --git a/src/Mod/Material/StandardMaterial/None.FCMat b/src/Mod/Material/StandardMaterial/None.FCMat index 1532bfee20f0..e13ad8f8859f 100644 --- a/src/Mod/Material/StandardMaterial/None.FCMat +++ b/src/Mod/Material/StandardMaterial/None.FCMat @@ -7,7 +7,7 @@ Name = None Description = This is a not defined material Father = None -YoungsModulus = 0 MPa -UltimateTensileStrength = 0 MPa -PoissonRatio = 0 Density = 0 kg/m^3 +PoissonRatio = 0 +UltimateTensileStrength = 0 MPa +YoungsModulus = 0 MPa diff --git a/src/Mod/Material/StandardMaterial/PA6-Generic.FCMat b/src/Mod/Material/StandardMaterial/PA6-Generic.FCMat index f397c8ab837f..0dbcaca51b7c 100644 --- a/src/Mod/Material/StandardMaterial/PA6-Generic.FCMat +++ b/src/Mod/Material/StandardMaterial/PA6-Generic.FCMat @@ -6,13 +6,13 @@ [FCMat] Name = Polyamide 6 SourceURL = http://www.matweb.com/search/datasheet.aspx?MatGUID=8d78f3cfcb6f49d595896ce6ce6a2ef1 -YoungsModulus = 2930 MPa -UltimateTensileStrength = 75.5 MPa -PoissonRatio = 0.39 CompressiveStrength = 67.6 MPa Density = 1150 kg/m^3 +PoissonRatio = 0.39 +UltimateTensileStrength = 75.5 MPa +YieldStrength = 70.5 MPa +YoungsModulus = 2930 MPa SpecificHeat = 1670 J/kg/K ThermalConductivity = 0.262 W/m/K ThermalExpansionCoefficient = 0.000082 m/m/K -YieldStrength = 70.5 MPa ProductURL = https://en.wikipedia.org/wiki/Nylon_6 diff --git a/src/Mod/Material/StandardMaterial/PET-Generic.FCMat b/src/Mod/Material/StandardMaterial/PET-Generic.FCMat index d2f6bde2e0e6..98b5c85ddbc1 100644 --- a/src/Mod/Material/StandardMaterial/PET-Generic.FCMat +++ b/src/Mod/Material/StandardMaterial/PET-Generic.FCMat @@ -6,14 +6,14 @@ [FCMat] Name = PET SourceURL = http://www.matweb.com/search/DataSheet.aspx?MatGUID=a696bdcdff6f41dd98f8eec3599eaa20 -YoungsModulus = 3150 MPa -UltimateTensileStrength = 38.8 MPa -PoissonRatio = 0.36 CompressiveStrength = 38.0 MPa Density = 1380 kg/m^3 +PoissonRatio = 0.36 ShearModulus = 0.0385 GPa +UltimateTensileStrength = 38.8 MPa +YieldStrength = 62.8 MPa +YoungsModulus = 3150 MPa SpecificHeat = 1140 J/kg/K ThermalConductivity = 0.181 W/m/K ThermalExpansionCoefficient = 0.000072 m/m/K -YieldStrength = 62.8 MPa ProductURL = https://en.wikipedia.org/wiki/Polyethylene_terephthalate diff --git a/src/Mod/Material/StandardMaterial/PLA-Generic.FCMat b/src/Mod/Material/StandardMaterial/PLA-Generic.FCMat index 780585fab182..d36b24686b1f 100644 --- a/src/Mod/Material/StandardMaterial/PLA-Generic.FCMat +++ b/src/Mod/Material/StandardMaterial/PLA-Generic.FCMat @@ -8,12 +8,12 @@ Name = PLA Description = Polylactic acid or polylactide (PLA, Poly) is a biodegradable thermoplastic aliphatic polyester derived from renewable resources, such as corn starch, tapioca roots, chips, starch or sugarcane. Father = Thermoplast SourceURL = https://www.sd3d.com/wp-content/uploads/2017/06/MaterialTDS-PLA_01.pdf -YoungsModulus = 3640 MPa -UltimateTensileStrength = 26.4 MPa -PoissonRatio = 0.36 Density = 1240 kg/m^3 +PoissonRatio = 0.36 +UltimateTensileStrength = 26.4 MPa +YieldStrength = 35.9 MPa +YoungsModulus = 3640 MPa SpecificHeat = 1800 J/kg/K ThermalConductivity = 0.130 W/m/K ThermalExpansionCoefficient = 0.000041 m/m/K -YieldStrength = 35.9 MPa ProductURL = https://en.wikipedia.org/wiki/Polylactic_acid diff --git a/src/Mod/Material/StandardMaterial/PP-Generic.FCMat b/src/Mod/Material/StandardMaterial/PP-Generic.FCMat index fcce62519843..4adaea792e87 100644 --- a/src/Mod/Material/StandardMaterial/PP-Generic.FCMat +++ b/src/Mod/Material/StandardMaterial/PP-Generic.FCMat @@ -6,13 +6,13 @@ [FCMat] Name = Polypropylene SourceURL = http://www.matweb.com/search/DataSheet.aspx?MatGUID=a882a1c603374e278d062f106dfda95b -YoungsModulus = 1470 MPa -UltimateTensileStrength = 79.7 MPa -PoissonRatio = 0.44 CompressiveStrength = 10 MPa Density = 916 kg/m^3 +PoissonRatio = 0.44 +UltimateTensileStrength = 79.7 MPa +YieldStrength = 32.8 MPa +YoungsModulus = 1470 MPa SpecificHeat = 1920 J/kg/K ThermalConductivity = 0.249 W/m/K ThermalExpansionCoefficient = 0.000123 m/m/K -YieldStrength = 32.8 MPa ProductURL = https://en.wikipedia.org/wiki/Polypropylene diff --git a/src/Mod/Material/StandardMaterial/PTFE-Generic.FCMat b/src/Mod/Material/StandardMaterial/PTFE-Generic.FCMat index 4cd04a82b057..e46eabb3eefe 100644 --- a/src/Mod/Material/StandardMaterial/PTFE-Generic.FCMat +++ b/src/Mod/Material/StandardMaterial/PTFE-Generic.FCMat @@ -6,13 +6,13 @@ [FCMat] Name = PTFE SourceURL = http://www.matweb.com/search/datasheet.aspx?MatGUID=4d14eac958e5401a8fd152e1261b6843 -YoungsModulus = 564 MPa -UltimateTensileStrength = 34.6 MPa -PoissonRatio = 0.46 CompressiveStrength = 10.2 MPa Density = 2070 kg/m^3 +PoissonRatio = 0.46 +UltimateTensileStrength = 34.6 MPa +YieldStrength = 20.5 MPa +YoungsModulus = 564 MPa SpecificHeat = 1010 J/kg/K ThermalConductivity = 0.263 W/m/K ThermalExpansionCoefficient = 0.000108 m/m/K -YieldStrength = 20.5 MPa ProductURL = https://en.wikipedia.org/wiki/Polytetrafluoroethylene diff --git a/src/Mod/Material/StandardMaterial/PVC-Generic.FCMat b/src/Mod/Material/StandardMaterial/PVC-Generic.FCMat index c145f01ffe12..749b7522fb61 100644 --- a/src/Mod/Material/StandardMaterial/PVC-Generic.FCMat +++ b/src/Mod/Material/StandardMaterial/PVC-Generic.FCMat @@ -6,10 +6,10 @@ [FCMat] Name = PVC SourceURL = http://www.matweb.com/search/DataSheet.aspx?MatGUID=1f650966ec834bb8833dd4c6e3116079 -YoungsModulus = 2800 MPa -UltimateTensileStrength = 50 MPa -PoissonRatio = 0.38 Density = 1380 kg/m^3 +PoissonRatio = 0.38 +UltimateTensileStrength = 50 MPa +YoungsModulus = 2800 MPa SpecificHeat = 1000 J/kg/K ThermalConductivity = 0.150 W/m/K ThermalExpansionCoefficient = 0.000075 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-15CrNi6.FCMat b/src/Mod/Material/StandardMaterial/Steel-15CrNi6.FCMat index 56efda7c4d8d..e7275788c65f 100644 --- a/src/Mod/Material/StandardMaterial/Steel-15CrNi6.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-15CrNi6.FCMat @@ -13,11 +13,11 @@ KindOfMaterial = Case-hardened steel KindOfMaterialDE = Einsatzstahl MaterialNumber = 1.5919 Norm = EN 10084 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 1000 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 9 +UltimateTensileStrength = 1000 MPa YieldStrength = 680 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-17CrNiMo6.FCMat b/src/Mod/Material/StandardMaterial/Steel-17CrNiMo6.FCMat index c5f333e578cf..f81c0b3a999f 100644 --- a/src/Mod/Material/StandardMaterial/Steel-17CrNiMo6.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-17CrNiMo6.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Case-hardened steel KindOfMaterialDE = Einsatzstahl MaterialNumber = 1.6587 Norm = EN 10084 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 1150 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 8 +UltimateTensileStrength = 1150 MPa YieldStrength = 830 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-1C22.FCMat b/src/Mod/Material/StandardMaterial/Steel-1C22.FCMat index 2dbc62738bc9..d37e9f4b526b 100644 --- a/src/Mod/Material/StandardMaterial/Steel-1C22.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-1C22.FCMat @@ -14,11 +14,11 @@ KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.0402 Norm = EN 10083-1 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 400 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 27 +UltimateTensileStrength = 400 MPa YieldStrength = 230 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-1C35.FCMat b/src/Mod/Material/StandardMaterial/Steel-1C35.FCMat index 6184666cd6b0..884ff8714494 100644 --- a/src/Mod/Material/StandardMaterial/Steel-1C35.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-1C35.FCMat @@ -13,11 +13,11 @@ KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.0501 Norm = EN 10083-1 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 480 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 21 +UltimateTensileStrength = 480 MPa YieldStrength = 300 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-1C45.FCMat b/src/Mod/Material/StandardMaterial/Steel-1C45.FCMat index 6610fae3dda0..ff7d91a82b88 100644 --- a/src/Mod/Material/StandardMaterial/Steel-1C45.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-1C45.FCMat @@ -13,11 +13,11 @@ KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.0503 Norm = EN 10083-1 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 580 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 14 +UltimateTensileStrength = 580 MPa YieldStrength = 340 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-1C60.FCMat b/src/Mod/Material/StandardMaterial/Steel-1C60.FCMat index a3e859eb9373..fc2c0eda0780 100644 --- a/src/Mod/Material/StandardMaterial/Steel-1C60.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-1C60.FCMat @@ -13,11 +13,11 @@ KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.0601 Norm = EN 10083-1 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 650 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 11 +UltimateTensileStrength = 650 MPa YieldStrength = 380 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-20NiCrMo2.FCMat b/src/Mod/Material/StandardMaterial/Steel-20NiCrMo2.FCMat index 1abaa6646179..810715f41a0e 100644 --- a/src/Mod/Material/StandardMaterial/Steel-20NiCrMo2.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-20NiCrMo2.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Case-hardened steel KindOfMaterialDE = Einsatzstahl MaterialNumber = 1.6523 Norm = EN 10084 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 900 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 10 +UltimateTensileStrength = 900 MPa YieldStrength = 630 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-28Mn6.FCMat b/src/Mod/Material/StandardMaterial/Steel-28Mn6.FCMat index 24482e6203e6..f6f68c66fb11 100644 --- a/src/Mod/Material/StandardMaterial/Steel-28Mn6.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-28Mn6.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.117 Norm = EN 10083-1 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 800 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 13 +UltimateTensileStrength = 800 MPa YieldStrength = 590 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-2C10.FCMat b/src/Mod/Material/StandardMaterial/Steel-2C10.FCMat index 4f1e7a5d7df8..8404271eec41 100644 --- a/src/Mod/Material/StandardMaterial/Steel-2C10.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-2C10.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Case-hardened steel KindOfMaterialDE = Einsatzstahl MaterialNumber = 1.1121 Norm = EN 10084 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 640 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 +UltimateTensileStrength = 640 MPa YieldStrength = 390 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-30CrNiMo8.FCMat b/src/Mod/Material/StandardMaterial/Steel-30CrNiMo8.FCMat index 60debc87cf2f..6e8795ea5092 100644 --- a/src/Mod/Material/StandardMaterial/Steel-30CrNiMo8.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-30CrNiMo8.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.658 Norm = EN 10083-1 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 1250 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 9 +UltimateTensileStrength = 1250 MPa YieldStrength = 1050 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-34CrNiMo6.FCMat b/src/Mod/Material/StandardMaterial/Steel-34CrNiMo6.FCMat index fe8a71254fb2..4061046e11a0 100644 --- a/src/Mod/Material/StandardMaterial/Steel-34CrNiMo6.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-34CrNiMo6.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.6582 Norm = EN 10083-1 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 1200 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 9 +UltimateTensileStrength = 1200 MPa YieldStrength = 1000 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-36CrNiMo4.FCMat b/src/Mod/Material/StandardMaterial/Steel-36CrNiMo4.FCMat index fbe79484edfe..f8a2dfd4520e 100644 --- a/src/Mod/Material/StandardMaterial/Steel-36CrNiMo4.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-36CrNiMo4.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.6511 Norm = EN 10083-1 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 1100 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 10 +UltimateTensileStrength = 1100 MPa YieldStrength = 900 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-36NiCrMo16.FCMat b/src/Mod/Material/StandardMaterial/Steel-36NiCrMo16.FCMat index a1afb209a6a8..3ecab0d8615e 100644 --- a/src/Mod/Material/StandardMaterial/Steel-36NiCrMo16.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-36NiCrMo16.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.6773 Norm = EN 10083-1 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 1250 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 9 +UltimateTensileStrength = 1250 MPa YieldStrength = 1050 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-3C15.FCMat b/src/Mod/Material/StandardMaterial/Steel-3C15.FCMat index 1a21a076b85a..8433e2f97ae8 100644 --- a/src/Mod/Material/StandardMaterial/Steel-3C15.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-3C15.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Case-hardened steel KindOfMaterialDE = Einsatzstahl MaterialNumber = 1.114 Norm = EN 10084 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 740 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 +UltimateTensileStrength = 740 MPa YieldStrength = 440 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-3C22.FCMat b/src/Mod/Material/StandardMaterial/Steel-3C22.FCMat index f97fff2720c7..6cbc3bc32ce2 100644 --- a/src/Mod/Material/StandardMaterial/Steel-3C22.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-3C22.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.1149 Norm = EN 10083-1 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 550 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 24 +UltimateTensileStrength = 550 MPa YieldStrength = 350 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-3C35.FCMat b/src/Mod/Material/StandardMaterial/Steel-3C35.FCMat index d813c396ef85..b8f1a42ad954 100644 --- a/src/Mod/Material/StandardMaterial/Steel-3C35.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-3C35.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.118 Norm = EN 10083-1 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 630 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 17 +UltimateTensileStrength = 630 MPa YieldStrength = 430 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-3V45.FCMat b/src/Mod/Material/StandardMaterial/Steel-3V45.FCMat index 418e159a28ba..6daf4cc29cd3 100644 --- a/src/Mod/Material/StandardMaterial/Steel-3V45.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-3V45.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.1201 Norm = EN 10083-1 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 700 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 14 +UltimateTensileStrength = 700 MPa YieldStrength = 500 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-C10.FCMat b/src/Mod/Material/StandardMaterial/Steel-C10.FCMat index f6d1f8c47185..cb02ef84d62e 100644 --- a/src/Mod/Material/StandardMaterial/Steel-C10.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-C10.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Case-hardened steel KindOfMaterialDE = Einsatzstahl MaterialNumber = 1.0301 Norm = DIN 17210 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 650 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 16 +UltimateTensileStrength = 650 MPa YieldStrength = 380 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-C15.FCMat b/src/Mod/Material/StandardMaterial/Steel-C15.FCMat index e51784cb1d29..ef9d40e786fe 100644 --- a/src/Mod/Material/StandardMaterial/Steel-C15.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-C15.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Case-hardened steel KindOfMaterialDE = Einsatzstahl MaterialNumber = 1.0401 Norm = DIN 17210 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 750 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 14 +UltimateTensileStrength = 750 MPa YieldStrength = 430 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-C22E.FCMat b/src/Mod/Material/StandardMaterial/Steel-C22E.FCMat index 53f4f2c741f5..76716a174fbb 100644 --- a/src/Mod/Material/StandardMaterial/Steel-C22E.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-C22E.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.1151 Norm = EN 10083-1 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 500 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 20 +UltimateTensileStrength = 500 MPa YieldStrength = 340 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-C25E.FCMat b/src/Mod/Material/StandardMaterial/Steel-C25E.FCMat index 4144963b688e..9f1287d8b90f 100644 --- a/src/Mod/Material/StandardMaterial/Steel-C25E.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-C25E.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.1158 Norm = EN 10083-1 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 550 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 19 +UltimateTensileStrength = 550 MPa YieldStrength = 370 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-C30E.FCMat b/src/Mod/Material/StandardMaterial/Steel-C30E.FCMat index 012b9861c270..3d97511da0d5 100644 --- a/src/Mod/Material/StandardMaterial/Steel-C30E.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-C30E.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.1178 Norm = EN 10083-1 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 600 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 18 +UltimateTensileStrength = 600 MPa YieldStrength = 400 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-C40E.FCMat b/src/Mod/Material/StandardMaterial/Steel-C40E.FCMat index 8228100ae5d5..a45b3d337bbc 100644 --- a/src/Mod/Material/StandardMaterial/Steel-C40E.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-C40E.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.1186 Norm = EN 10083-1 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 650 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 16 +UltimateTensileStrength = 650 MPa YieldStrength = 460 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-C50E.FCMat b/src/Mod/Material/StandardMaterial/Steel-C50E.FCMat index 5cb322c84626..b9470200b57d 100644 --- a/src/Mod/Material/StandardMaterial/Steel-C50E.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-C50E.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.1206 Norm = EN 10083-1 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 750 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 13 +UltimateTensileStrength = 750 MPa YieldStrength = 520 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-C55E.FCMat b/src/Mod/Material/StandardMaterial/Steel-C55E.FCMat index 38582d20198d..4bdee5ea8754 100644 --- a/src/Mod/Material/StandardMaterial/Steel-C55E.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-C55E.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.1203 Norm = EN 10083-1 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 800 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 13 +UltimateTensileStrength = 800 MPa YieldStrength = 550 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-C60E.FCMat b/src/Mod/Material/StandardMaterial/Steel-C60E.FCMat index 6cef8d9d16f5..03fe4d286c10 100644 --- a/src/Mod/Material/StandardMaterial/Steel-C60E.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-C60E.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.1221 Norm = EN 10083-1 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 850 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 13 +UltimateTensileStrength = 850 MPa YieldStrength = 580 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-E295-GC.FCMat b/src/Mod/Material/StandardMaterial/Steel-E295-GC.FCMat index bfb141760c99..22e9c2c23c1c 100644 --- a/src/Mod/Material/StandardMaterial/Steel-E295-GC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-E295-GC.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.0533 Norm = EN 10025 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 590 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 +UltimateTensileStrength = 590 MPa YieldStrength = 420 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-E295.FCMat b/src/Mod/Material/StandardMaterial/Steel-E295.FCMat index f3eb8d516a74..1630adfbad65 100644 --- a/src/Mod/Material/StandardMaterial/Steel-E295.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-E295.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.005 Norm = EN 10025 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 490 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 20 +UltimateTensileStrength = 490 MPa YieldStrength = 295 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-E335-GC.FCMat b/src/Mod/Material/StandardMaterial/Steel-E335-GC.FCMat index d33fda965325..ad45f32e7267 100644 --- a/src/Mod/Material/StandardMaterial/Steel-E335-GC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-E335-GC.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.0543 Norm = EN 10025 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 690 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 +UltimateTensileStrength = 690 MPa YieldStrength = 490 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-E335.FCMat b/src/Mod/Material/StandardMaterial/Steel-E335.FCMat index 8187b16eb555..8b5b9603bee8 100644 --- a/src/Mod/Material/StandardMaterial/Steel-E335.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-E335.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.006 Norm = EN 10025 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 590 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 16 +UltimateTensileStrength = 590 MPa YieldStrength = 335 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-E360-GC.FCMat b/src/Mod/Material/StandardMaterial/Steel-E360-GC.FCMat index 7039cae1833f..7554b1234ff0 100644 --- a/src/Mod/Material/StandardMaterial/Steel-E360-GC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-E360-GC.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.0633 Norm = EN 10025 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 780 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 +UltimateTensileStrength = 780 MPa YieldStrength = 560 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-E360.FCMat b/src/Mod/Material/StandardMaterial/Steel-E360.FCMat index 2d8580abbee7..5d4bdbf192b2 100644 --- a/src/Mod/Material/StandardMaterial/Steel-E360.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-E360.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.007 Norm = EN 10025 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 690 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 11 +UltimateTensileStrength = 690 MPa YieldStrength = 360 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-100.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-100.FCMat index 02844e12e5e9..563aa493bd4f 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-100.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-100.FCMat @@ -12,10 +12,10 @@ KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.601 Norm = EN 1561 -YoungsModulus = 88000 MPa -UltimateTensileStrength = 100 MPa -PoissonRatio = 0.3 Density = 7200 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 34000 MPa -ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 0 +UltimateTensileStrength = 100 MPa +YoungsModulus = 88000 MPa +ThermalExpansionCoefficient = 0.00001 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-150.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-150.FCMat index c12a5983cddb..468aa841661a 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-150.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-150.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.6015 Norm = EN 1561 -YoungsModulus = 95000 MPa -UltimateTensileStrength = 150 MPa -PoissonRatio = 0.3 Density = 7200 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 37000 MPa -ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 0 +UltimateTensileStrength = 150 MPa YieldStrength = 98 MPa +YoungsModulus = 95000 MPa +ThermalExpansionCoefficient = 0.00001 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-200.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-200.FCMat index e462d78426e5..441827ae9efa 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-200.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-200.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.602 Norm = EN 1561 -YoungsModulus = 105000 MPa -UltimateTensileStrength = 200 MPa -PoissonRatio = 0.3 Density = 7200 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 40000 MPa -ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 0 +UltimateTensileStrength = 200 MPa YieldStrength = 130 MPa +YoungsModulus = 105000 MPa +ThermalExpansionCoefficient = 0.00001 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-250.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-250.FCMat index db85c0262eb1..597ea4923c64 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-250.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-250.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.6025 Norm = EN 1561 -YoungsModulus = 115000 MPa -UltimateTensileStrength = 250 MPa -PoissonRatio = 0.3 Density = 7200 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 44000 MPa -ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 0 +UltimateTensileStrength = 250 MPa YieldStrength = 165 MPa +YoungsModulus = 115000 MPa +ThermalExpansionCoefficient = 0.00001 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-300.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-300.FCMat index 38273f852ac2..09593187426c 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-300.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-300.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.603 Norm = EN 1561 -YoungsModulus = 125000 MPa -UltimateTensileStrength = 300 MPa -PoissonRatio = 0.3 Density = 7200 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 48000 MPa -ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 0 +UltimateTensileStrength = 300 MPa YieldStrength = 195 MPa +YoungsModulus = 125000 MPa +ThermalExpansionCoefficient = 0.00001 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-350.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-350.FCMat index ac837e26fe2e..26e3633913ab 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-350.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-350.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.6035 Norm = EN 1561 -YoungsModulus = 135000 MPa -UltimateTensileStrength = 350 MPa -PoissonRatio = 0.3 Density = 7200 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 52000 MPa -ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 15 +UltimateTensileStrength = 350 MPa YieldStrength = 228 MPa +YoungsModulus = 135000 MPa +ThermalExpansionCoefficient = 0.00001 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-350-10.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-350-10.FCMat index 1e1a3a256bff..57062ec06cd3 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-350-10.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-350-10.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.8135 Norm = EN 1562 -YoungsModulus = 175000 MPa -UltimateTensileStrength = 350 MPa -PoissonRatio = 0.3 Density = 7200 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 67000 MPa -ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 10 +UltimateTensileStrength = 350 MPa YieldStrength = 200 MPa +YoungsModulus = 175000 MPa +ThermalExpansionCoefficient = 0.00001 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-550-4.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-550-4.FCMat index c6a0a1910083..c28ff4e5c8a0 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-550-4.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-550-4.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.8155 Norm = EN 1562 -YoungsModulus = 175000 MPa -UltimateTensileStrength = 550 MPa -PoissonRatio = 0.3 Density = 7200 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 67000 MPa -ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 2 +UltimateTensileStrength = 550 MPa YieldStrength = 340 MPa +YoungsModulus = 175000 MPa +ThermalExpansionCoefficient = 0.00001 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-650-2.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-650-2.FCMat index 14721f203b45..dfa78310a6a2 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-650-2.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-650-2.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.8165 Norm = EN 1562 -YoungsModulus = 175000 MPa -UltimateTensileStrength = 650 MPa -PoissonRatio = 0.3 Density = 7200 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 67000 MPa -ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 2 +UltimateTensileStrength = 650 MPa YieldStrength = 430 MPa +YoungsModulus = 175000 MPa +ThermalExpansionCoefficient = 0.00001 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-350-4.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-350-4.FCMat index 408aa715439f..dfb02556deae 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-350-4.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-350-4.FCMat @@ -12,10 +12,10 @@ KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.8035 Norm = EN 1562 -YoungsModulus = 175000 MPa -UltimateTensileStrength = 350 MPa -PoissonRatio = 0.3 Density = 7200 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 67000 MPa -ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 4 +UltimateTensileStrength = 350 MPa +YoungsModulus = 175000 MPa +ThermalExpansionCoefficient = 0.00001 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-360-12.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-360-12.FCMat index 3d3233a87e95..2cfc2738da34 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-360-12.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-360-12.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.8038 Norm = EN 1562 -YoungsModulus = 175000 MPa -UltimateTensileStrength = 380 MPa -PoissonRatio = 0.3 Density = 7200 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 67000 MPa -ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 5 +UltimateTensileStrength = 380 MPa YieldStrength = 200 MPa +YoungsModulus = 175000 MPa +ThermalExpansionCoefficient = 0.00001 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-400-5.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-400-5.FCMat index 4c3bac0abd27..5b9cd88cd71e 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-400-5.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-400-5.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.804 Norm = EN 1562 -YoungsModulus = 175000 MPa -UltimateTensileStrength = 400 MPa -PoissonRatio = 0.3 Density = 7200 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 67000 MPa -ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 7 +UltimateTensileStrength = 400 MPa YieldStrength = 220 MPa +YoungsModulus = 175000 MPa +ThermalExpansionCoefficient = 0.00001 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-450-7.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-450-7.FCMat index 91e9f0a149fa..b3e1bad619cf 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-450-7.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-450-7.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.8045 Norm = EN 1562 -YoungsModulus = 175000 MPa -UltimateTensileStrength = 450 MPa -PoissonRatio = 0.3 Density = 7200 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 67000 MPa -ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 10 +UltimateTensileStrength = 450 MPa YieldStrength = 260 MPa +YoungsModulus = 175000 MPa +ThermalExpansionCoefficient = 0.00001 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJS-400-15.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJS-400-15.FCMat index 6ff84e377d1a..3153f79a2833 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJS-400-15.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJS-400-15.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.704 Norm = EN 1563 -YoungsModulus = 167000 MPa -UltimateTensileStrength = 400 MPa -PoissonRatio = 0.3 Density = 7200 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 65000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 15 +UltimateTensileStrength = 400 MPa YieldStrength = 250 MPa +YoungsModulus = 167000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJS-500-7.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJS-500-7.FCMat index 51cdecb3787b..63028db40532 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJS-500-7.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJS-500-7.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.705 Norm = EN 1563 -YoungsModulus = 170000 MPa -UltimateTensileStrength = 500 MPa -PoissonRatio = 0.3 Density = 7200 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 66000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 2 +UltimateTensileStrength = 500 MPa YieldStrength = 320 MPa +YoungsModulus = 170000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJS-600-3.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJS-600-3.FCMat index 4fe7c5ba210a..ecfcc63fc26c 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJS-600-3.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJS-600-3.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.706 Norm = EN 1563 -YoungsModulus = 177000 MPa -UltimateTensileStrength = 600 MPa -PoissonRatio = 0.3 Density = 7200 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 67000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 2 +UltimateTensileStrength = 600 MPa YieldStrength = 370 MPa +YoungsModulus = 177000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJS-700-2.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJS-700-2.FCMat index 47575ef37cc6..a2c4a45724b5 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJS-700-2.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJS-700-2.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.707 Norm = EN 1563 -YoungsModulus = 180000 MPa -UltimateTensileStrength = 700 MPa -PoissonRatio = 0.3 Density = 7200 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 67000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 2 +UltimateTensileStrength = 700 MPa YieldStrength = 420 MPa +YoungsModulus = 180000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJS-800-1.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJS-800-1.FCMat index c5a6aa5589c4..2e1ec429af72 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJS-800-1.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJS-800-1.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.708 Norm = EN 1563 -YoungsModulus = 180000 MPa -UltimateTensileStrength = 800 MPa -PoissonRatio = 0.3 Density = 7200 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 67000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 2 +UltimateTensileStrength = 800 MPa YieldStrength = 480 MPa +YoungsModulus = 180000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-G16Mn5.FCMat b/src/Mod/Material/StandardMaterial/Steel-G16Mn5.FCMat index 7d750c99cd70..7f7c7c891876 100644 --- a/src/Mod/Material/StandardMaterial/Steel-G16Mn5.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-G16Mn5.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Cast steel KindOfMaterialDE = Stahlguss MaterialNumber = 1.1131 Norm = DIN 1681 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 430 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 +UltimateTensileStrength = 430 MPa YieldStrength = 260 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-G200.FCMat b/src/Mod/Material/StandardMaterial/Steel-G200.FCMat index 7a6efc63fb21..568065b537f3 100644 --- a/src/Mod/Material/StandardMaterial/Steel-G200.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-G200.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Cast steel KindOfMaterialDE = Stahlguss MaterialNumber = 1.042 Norm = DIN 1681 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 380 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 25 +UltimateTensileStrength = 380 MPa YieldStrength = 200 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-G20Mn5.FCMat b/src/Mod/Material/StandardMaterial/Steel-G20Mn5.FCMat index 1facc4ec5e4a..18262f5625b9 100644 --- a/src/Mod/Material/StandardMaterial/Steel-G20Mn5.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-G20Mn5.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Cast steel KindOfMaterialDE = Stahlguss MaterialNumber = 1.112 Norm = DIN 1681 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 500 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 +UltimateTensileStrength = 500 MPa YieldStrength = 360 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-G230.FCMat b/src/Mod/Material/StandardMaterial/Steel-G230.FCMat index 0d42cccaa916..113e1815873f 100644 --- a/src/Mod/Material/StandardMaterial/Steel-G230.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-G230.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Cast steel KindOfMaterialDE = Stahlguss MaterialNumber = 1.0446 Norm = DIN 1681 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 450 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 22 +UltimateTensileStrength = 450 MPa YieldStrength = 230 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-G260.FCMat b/src/Mod/Material/StandardMaterial/Steel-G260.FCMat index 405865683471..529aef500b8a 100644 --- a/src/Mod/Material/StandardMaterial/Steel-G260.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-G260.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Cast steel KindOfMaterialDE = Stahlguss MaterialNumber = 1.0552 Norm = DIN 1681 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 520 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 18 +UltimateTensileStrength = 520 MPa YieldStrength = 260 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-G300.FCMat b/src/Mod/Material/StandardMaterial/Steel-G300.FCMat index 3d56f9e5f886..7dd375534f69 100644 --- a/src/Mod/Material/StandardMaterial/Steel-G300.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-G300.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Cast steel KindOfMaterialDE = Stahlguss MaterialNumber = 1.0558 Norm = DIN 1681 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 600 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 15 +UltimateTensileStrength = 600 MPa YieldStrength = 300 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-G30Mn5.FCMat b/src/Mod/Material/StandardMaterial/Steel-G30Mn5.FCMat index a2506c8492c1..f1b90b9fc928 100644 --- a/src/Mod/Material/StandardMaterial/Steel-G30Mn5.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-G30Mn5.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Cast steel KindOfMaterialDE = Stahlguss MaterialNumber = 1.1165 Norm = DIN 17205 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 520 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 14 +UltimateTensileStrength = 520 MPa YieldStrength = 400 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-Generic.FCMat b/src/Mod/Material/StandardMaterial/Steel-Generic.FCMat index bd4f93ec488b..3945a8a0081f 100644 --- a/src/Mod/Material/StandardMaterial/Steel-Generic.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-Generic.FCMat @@ -7,9 +7,9 @@ Name = Steel-Generic Description = This is a blend Steel material card. The values are at the low end of the spectrum. If you need a more precise material definition use the more specialised steel cards. Father = Metal -YoungsModulus = 200000 MPa -PoissonRatio = 0.3 Density = 7900 kg/m^3 +PoissonRatio = 0.3 +YoungsModulus = 200000 MPa SpecificHeat = 500 J/kg/K ThermalConductivity = 50 W/m/K ThermalExpansionCoefficient = 0.000012 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-S185.FCMat b/src/Mod/Material/StandardMaterial/Steel-S185.FCMat index bb9a64986f52..87b2b79906c9 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S185.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S185.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.0035 Norm = EN 10025 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 310 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 18 +UltimateTensileStrength = 310 MPa YieldStrength = 190 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-S235JO.FCMat b/src/Mod/Material/StandardMaterial/Steel-S235JO.FCMat index 81336c7c834a..fe89edbad71c 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S235JO.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S235JO.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.0114 Norm = EN 10025 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 360 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 26 +UltimateTensileStrength = 360 MPa YieldStrength = 235 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-S235JR.FCMat b/src/Mod/Material/StandardMaterial/Steel-S235JR.FCMat index 9098def73729..7d45c7311b09 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S235JR.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S235JR.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.0037 Norm = EN 10025 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 360 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 26 +UltimateTensileStrength = 360 MPa YieldStrength = 235 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-S235JRG1.FCMat b/src/Mod/Material/StandardMaterial/Steel-S235JRG1.FCMat index 91e99c491153..9da02f57f25a 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S235JRG1.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S235JRG1.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.0036 Norm = EN 10025 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 360 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 26 +UltimateTensileStrength = 360 MPa YieldStrength = 235 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-S260NC.FCMat b/src/Mod/Material/StandardMaterial/Steel-S260NC.FCMat index 8754c8d6b42d..8fff1f9b437c 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S260NC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S260NC.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Cold forming steel KindOfMaterialDE = Kaltumformstahl MaterialNumber = 1.0971 Norm = SEW 092 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 350 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 30 +UltimateTensileStrength = 350 MPa YieldStrength = 280 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-S275JO.FCMat b/src/Mod/Material/StandardMaterial/Steel-S275JO.FCMat index e7f5d3670d91..a31bf35415d8 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S275JO.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S275JO.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.0143 Norm = EN 10025 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 430 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 22 +UltimateTensileStrength = 430 MPa YieldStrength = 275 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-S275JR.FCMat b/src/Mod/Material/StandardMaterial/Steel-S275JR.FCMat index 814833cd276c..c3da0c50e154 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S275JR.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S275JR.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.0044 Norm = EN 10025 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 430 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 22 +UltimateTensileStrength = 430 MPa YieldStrength = 275 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-S275N.FCMat b/src/Mod/Material/StandardMaterial/Steel-S275N.FCMat index 693950702ef4..d8d761776856 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S275N.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S275N.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Fine grain steel KindOfMaterialDE = Feinkornstahl MaterialNumber = 1.049 Norm = EN 10113-2 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 370 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 24 +UltimateTensileStrength = 370 MPa YieldStrength = 275 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-S335JO.FCMat b/src/Mod/Material/StandardMaterial/Steel-S335JO.FCMat index ccd8662177c6..66ba4c6806c4 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S335JO.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S335JO.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.0553 Norm = EN 10025 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 510 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 22 +UltimateTensileStrength = 510 MPa YieldStrength = 355 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-S335JR.FCMat b/src/Mod/Material/StandardMaterial/Steel-S335JR.FCMat index 61e69c783940..745ce02cff6c 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S335JR.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S335JR.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.0045 Norm = EN 10025 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 510 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 22 +UltimateTensileStrength = 510 MPa YieldStrength = 355 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-S335N.FCMat b/src/Mod/Material/StandardMaterial/Steel-S335N.FCMat index 45ecc9eb41df..ec63ebd19d92 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S335N.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S335N.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Fine grain steel KindOfMaterialDE = Feinkornstahl MaterialNumber = 1.0545 Norm = EN 10113-2 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 470 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 22 +UltimateTensileStrength = 470 MPa YieldStrength = 355 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-S340MC.FCMat b/src/Mod/Material/StandardMaterial/Steel-S340MC.FCMat index 6222f290d481..0768159e3bb5 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S340MC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S340MC.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Cold forming steel KindOfMaterialDE = Kaltumformstahl MaterialNumber = 1.0974 Norm = SEW 092 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 480 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 25 +UltimateTensileStrength = 480 MPa YieldStrength = 340 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-S355J2G3.FCMat b/src/Mod/Material/StandardMaterial/Steel-S355J2G3.FCMat index 6d6147e89ab3..a1460a295aca 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S355J2G3.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S355J2G3.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.057 Norm = EN 10025 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 510 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 22 +UltimateTensileStrength = 510 MPa YieldStrength = 355 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-S380MC.FCMat b/src/Mod/Material/StandardMaterial/Steel-S380MC.FCMat index 30671a6ee170..d8c30072cdca 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S380MC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S380MC.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Cold forming steel KindOfMaterialDE = Kaltumformstahl MaterialNumber = 1.0978 Norm = SEW 092 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 520 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 23 +UltimateTensileStrength = 520 MPa YieldStrength = 380 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-S420MC.FCMat b/src/Mod/Material/StandardMaterial/Steel-S420MC.FCMat index 08ff934ae9a7..243afa146c64 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S420MC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S420MC.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Cold forming steel KindOfMaterialDE = Kaltumformstahl MaterialNumber = 1.098 Norm = EN 10149 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 550 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 21 +UltimateTensileStrength = 550 MPa YieldStrength = 420 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-S420N.FCMat b/src/Mod/Material/StandardMaterial/Steel-S420N.FCMat index 8628e3246cfd..2d9186d623cf 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S420N.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S420N.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Fine grain steel KindOfMaterialDE = Feinkornstahl MaterialNumber = 1.8902 Norm = EN 10113-2 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 520 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 19 +UltimateTensileStrength = 520 MPa YieldStrength = 420 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-S460MC.FCMat b/src/Mod/Material/StandardMaterial/Steel-S460MC.FCMat index e2d29a5fc4ad..24278fefb9e2 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S460MC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S460MC.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Cold forming steel KindOfMaterialDE = Kaltumformstahl MaterialNumber = 1.0982 Norm = SEW 092 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 590 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 19 +UltimateTensileStrength = 590 MPa YieldStrength = 460 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-S460N.FCMat b/src/Mod/Material/StandardMaterial/Steel-S460N.FCMat index 6311fe0729eb..877653ecc13f 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S460N.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S460N.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Fine grain steel KindOfMaterialDE = Feinkornstahl MaterialNumber = 1.8901 Norm = EN 10113-2 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 550 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 17 +UltimateTensileStrength = 550 MPa YieldStrength = 460 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-S500MC.FCMat b/src/Mod/Material/StandardMaterial/Steel-S500MC.FCMat index 684431333b0e..19fbf9bcc49f 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S500MC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S500MC.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Cold forming steel KindOfMaterialDE = Kaltumformstahl MaterialNumber = 1.0984 Norm = EN 10149 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 620 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 17 +UltimateTensileStrength = 620 MPa YieldStrength = 500 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-S550MC.FCMat b/src/Mod/Material/StandardMaterial/Steel-S550MC.FCMat index c7f3bc014266..108288381849 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S550MC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S550MC.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Cold forming steel KindOfMaterialDE = Kaltumformstahl MaterialNumber = 1.0986 Norm = SEW 092 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 680 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 15 +UltimateTensileStrength = 680 MPa YieldStrength = 550 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-S690MC.FCMat b/src/Mod/Material/StandardMaterial/Steel-S690MC.FCMat index e7217c6639d2..6609c05f45e6 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S690MC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S690MC.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Cold forming steel KindOfMaterialDE = Kaltumformstahl MaterialNumber = 1.0966 Norm = SEW 092 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 790 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 15 +UltimateTensileStrength = 790 MPa YieldStrength = 690 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-St-37-2K.FCMat b/src/Mod/Material/StandardMaterial/Steel-St-37-2K.FCMat index ed7a0ea65531..4b300255f25c 100644 --- a/src/Mod/Material/StandardMaterial/Steel-St-37-2K.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-St-37-2K.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.0161 Norm = EN 10025 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 460 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 +UltimateTensileStrength = 460 MPa YieldStrength = 320 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-St-E-255.FCMat b/src/Mod/Material/StandardMaterial/Steel-St-E-255.FCMat index 2893a37914d4..27100286263b 100644 --- a/src/Mod/Material/StandardMaterial/Steel-St-E-255.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-St-E-255.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Fine grain steel KindOfMaterialDE = Feinkornstahl MaterialNumber = 1.0461 Norm = DIN 17102 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 360 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 +UltimateTensileStrength = 360 MPa YieldStrength = 260 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-St-E-315.FCMat b/src/Mod/Material/StandardMaterial/Steel-St-E-315.FCMat index 182a0a54b7b3..f9f3126a4e09 100644 --- a/src/Mod/Material/StandardMaterial/Steel-St-E-315.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-St-E-315.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Fine grain steel KindOfMaterialDE = Feinkornstahl MaterialNumber = 1.0505 Norm = DIN 17102 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 440 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 +UltimateTensileStrength = 440 MPa YieldStrength = 320 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-St-E-380.FCMat b/src/Mod/Material/StandardMaterial/Steel-St-E-380.FCMat index bc3adaf45234..07465cb9f849 100644 --- a/src/Mod/Material/StandardMaterial/Steel-St-E-380.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-St-E-380.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Fine grain steel KindOfMaterialDE = Feinkornstahl MaterialNumber = 1.89 Norm = DIN 17102 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 500 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 +UltimateTensileStrength = 500 MPa YieldStrength = 380 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-St-E-460.FCMat b/src/Mod/Material/StandardMaterial/Steel-St-E-460.FCMat index 544b57882a4a..9a603bac817e 100644 --- a/src/Mod/Material/StandardMaterial/Steel-St-E-460.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-St-E-460.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Fine grain steel KindOfMaterialDE = Feinkornstahl MaterialNumber = 1.8905 Norm = DIN 17102 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 560 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 +UltimateTensileStrength = 560 MPa YieldStrength = 460 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-St-E-500.FCMat b/src/Mod/Material/StandardMaterial/Steel-St-E-500.FCMat index 9abb8a6ce301..fe4a4f39bef7 100644 --- a/src/Mod/Material/StandardMaterial/Steel-St-E-500.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-St-E-500.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Fine grain steel KindOfMaterialDE = Feinkornstahl MaterialNumber = 1.8907 Norm = DIN 17102 -YoungsModulus = 210000 MPa -UltimateTensileStrength = 610 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 +UltimateTensileStrength = 610 MPa YieldStrength = 500 MPa +YoungsModulus = 210000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-X2CrNiMoN17-13-3.FCMat b/src/Mod/Material/StandardMaterial/Steel-X2CrNiMoN17-13-3.FCMat index 46b904b06049..906819fc334f 100644 --- a/src/Mod/Material/StandardMaterial/Steel-X2CrNiMoN17-13-3.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-X2CrNiMoN17-13-3.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Stainless steel KindOfMaterialDE = Niro MaterialNumber = 1.4429 Norm = EN 10088 -YoungsModulus = 200000 MPa -UltimateTensileStrength = 580 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 35 +UltimateTensileStrength = 580 MPa YieldStrength = 295 MPa +YoungsModulus = 200000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-X2CrNiN24-4.FCMat b/src/Mod/Material/StandardMaterial/Steel-X2CrNiN24-4.FCMat index 34c563187d73..6a7dfca1d517 100644 --- a/src/Mod/Material/StandardMaterial/Steel-X2CrNiN24-4.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-X2CrNiN24-4.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Stainless steel KindOfMaterialDE = Niro MaterialNumber = 1.4362 Norm = EN 10088 -YoungsModulus = 200000 MPa -UltimateTensileStrength = 600 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 25 +UltimateTensileStrength = 600 MPa YieldStrength = 400 MPa +YoungsModulus = 200000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-X39CrMo17-1.FCMat b/src/Mod/Material/StandardMaterial/Steel-X39CrMo17-1.FCMat index dcb6dbf4411d..3b8ab5d98958 100644 --- a/src/Mod/Material/StandardMaterial/Steel-X39CrMo17-1.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-X39CrMo17-1.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Stainless steel KindOfMaterialDE = Niro MaterialNumber = 1.4122 Norm = EN 10088 -YoungsModulus = 213000 MPa -UltimateTensileStrength = 750 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 12 +UltimateTensileStrength = 750 MPa YieldStrength = 500 MPa +YoungsModulus = 213000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-X3CrNiMo13-14.FCMat b/src/Mod/Material/StandardMaterial/Steel-X3CrNiMo13-14.FCMat index 0ce92f7a3e97..6299f7b2030e 100644 --- a/src/Mod/Material/StandardMaterial/Steel-X3CrNiMo13-14.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-X3CrNiMo13-14.FCMat @@ -11,11 +11,11 @@ KindOfMaterial = Stainless steel KindOfMaterialDE = Niro MaterialNumber = 1.4313 Norm = EN 10088 -YoungsModulus = 216000 MPa -UltimateTensileStrength = 900 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 11 +UltimateTensileStrength = 900 MPa YieldStrength = 800 MPa +YoungsModulus = 216000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-X5CrNi18-10.FCMat b/src/Mod/Material/StandardMaterial/Steel-X5CrNi18-10.FCMat index 080b5562a625..816ba656c8b8 100644 --- a/src/Mod/Material/StandardMaterial/Steel-X5CrNi18-10.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-X5CrNi18-10.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Stainless steel KindOfMaterialDE = Niro MaterialNumber = 1.4301 Norm = EN 10088 -YoungsModulus = 200000 MPa -UltimateTensileStrength = 520 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 40 +UltimateTensileStrength = 520 MPa YieldStrength = 210 MPa +YoungsModulus = 200000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-X5CrNiMo17-12-2.FCMat b/src/Mod/Material/StandardMaterial/Steel-X5CrNiMo17-12-2.FCMat index 9b3ac30708f9..19a32de31c99 100644 --- a/src/Mod/Material/StandardMaterial/Steel-X5CrNiMo17-12-2.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-X5CrNiMo17-12-2.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Stainless steel KindOfMaterialDE = Niro MaterialNumber = 1.4401 Norm = EN 10088 -YoungsModulus = 180000 MPa -UltimateTensileStrength = 520 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 68000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 40 +UltimateTensileStrength = 520 MPa YieldStrength = 220 MPa +YoungsModulus = 180000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-X6CrNiTi18-10.FCMat b/src/Mod/Material/StandardMaterial/Steel-X6CrNiTi18-10.FCMat index 58312d0548f0..02392d7a6e62 100644 --- a/src/Mod/Material/StandardMaterial/Steel-X6CrNiTi18-10.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-X6CrNiTi18-10.FCMat @@ -12,11 +12,11 @@ KindOfMaterial = Stainless steel KindOfMaterialDE = Niro MaterialNumber = 1.4541 Norm = EN 10088 -YoungsModulus = 200000 MPa -UltimateTensileStrength = 500 MPa -PoissonRatio = 0.3 Density = 7800 kg/m^3 +PoissonRatio = 0.3 ShearModulus = 81000 MPa -ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 40 +UltimateTensileStrength = 500 MPa YieldStrength = 200 MPa +YoungsModulus = 200000 MPa +ThermalExpansionCoefficient = 0.000011 m/m/K diff --git a/src/Mod/Material/StandardMaterial/TEMPLATE.FCMat b/src/Mod/Material/StandardMaterial/TEMPLATE.FCMat index e69964954145..7db5143862d0 100644 --- a/src/Mod/Material/StandardMaterial/TEMPLATE.FCMat +++ b/src/Mod/Material/StandardMaterial/TEMPLATE.FCMat @@ -46,29 +46,41 @@ SourceURL = ; Description to be updated StandardCode = -; Young's Modulus (or E-Module) in [FreeCAD Pressure unit], see http://en.wikipedia.org/wiki/Young%27s_modulus for the details -YoungsModulus = +; Description to be updated +AngleOfFriction = -; Ultimate tensile strength in [FreeCAD Pressure unit], see http://en.wikipedia.org/wiki/Ultimate_tensile_strength for the details -UltimateTensileStrength = +; Compressive strength https://en.wikipedia.org/wiki/Compressive_strength +CompressiveStrength = + +; Density in [FreeCAD Density unit] https://en.wikipedia.org/wiki/Density +Density = + +; Description to be updated +FractureToughness = ; Poisson's ratio [unitless], see https://en.wikipedia.org/wiki/Poisson%27s_ratio for the details PoissonRatio = ; Description to be updated -AmbientColor = +ShearModulus = ; Description to be updated -AngleOfFriction = +UltimateStrain = -; Description to be updated -Color = +; Ultimate tensile strength in [FreeCAD Pressure unit], see http://en.wikipedia.org/wiki/Ultimate_tensile_strength for the details +UltimateTensileStrength = -; Compressive strength https://en.wikipedia.org/wiki/Compressive_strength -CompressiveStrength = +; Yield strength in [FreeCAD Pressure unit] https://en.wikipedia.org/wiki/Yield_%28engineering%29 +YieldStrength = -; Density in [FreeCAD Density unit] https://en.wikipedia.org/wiki/Density -Density = +; Young's Modulus (or E-Module) in [FreeCAD Pressure unit], see http://en.wikipedia.org/wiki/Young%27s_modulus for the details +YoungsModulus = + +; Description to be updated +AmbientColor = + +; Description to be updated +Color = ; Description to be updated DiffuseColor = @@ -88,9 +100,6 @@ Finish = ; Description to be updated FireResistanceClass = -; Description to be updated -FractureToughness = - ; Description to be updated FragmentShader = @@ -103,9 +112,6 @@ SectionFillPattern = ; Description to be updated SectionLinewidth = -; Description to be updated -ShearModulus = - ; Description to be updated Shininess = @@ -133,9 +139,6 @@ ThermalExpansionCoefficient = ; Description to be updated Transparency = -; Description to be updated -UltimateStrain = - ; Description to be updated UnitsPerQuantity = @@ -151,9 +154,6 @@ ViewFillPattern = ; Description to be updated ViewLinewidth = -; Yield strength in [FreeCAD Pressure unit] https://en.wikipedia.org/wiki/Yield_%28engineering%29 -YieldStrength = - ; Product URL, recommended are wikipedia links ProductURL = http://en.wikipedia.org/wiki/ diff --git a/src/Mod/Material/StandardMaterial/Tools/Materials.csv b/src/Mod/Material/StandardMaterial/Tools/Materials.csv index 5a8a8e6d0d0f..6d4e84047608 100644 --- a/src/Mod/Material/StandardMaterial/Tools/Materials.csv +++ b/src/Mod/Material/StandardMaterial/Tools/Materials.csv @@ -1,112 +1,112 @@ -FileName|Name|NameDE|Description|DescriptionDE|DescriptionPL|Father|KindOfMaterial|KindOfMaterialDE|MaterialNumber|Norm|ReferenceSource|SourceURL|StandardCode|YoungsModulus|UltimateTensileStrength|PoissonRatio|AmbientColor|AngleOfFriction|Color|CompressiveStrength|Density|DiffuseColor|EmissiveColor|Enlargen|EnvironmentalEfficiencyClass|ExecutionInstructions|Finish|FireResistanceClass|FractureToughness|FragmentShader|Model|SectionFillPattern|SectionLinewidth|ShearModulus|Shininess|SoundTransmissionClass|SpecificHeat|SpecularColor|TexturePath|TextureScaling|ThermalConductivity|ThermalExpansionCoefficient|Transparency|UltimateStrain|UnitsPerQuantity|VertexShader|ViewColor|ViewFillPattern|ViewLinewidth|YieldStrength|ProductURL|SpecificPrice|Vendor -ABS-Generic|ABS||This is a blend AcrylnitrilButadienStyrol (ABS) material card. The values are at the low end of the spectrum. If you need a more precise material definition use the more specialised ABS-blend cards.|||Thermoplast||||||http://www.matweb.com/search/DataSheet.aspx?MatGUID=eb7a78f5948d481c9493a67f0d089646||2300 MPa|38.8 MPa|0.37|||||1060 kg/m^3||||||||||||||||2050 J/kg/K||||0.158 W/m/K|0.000093 m/m/K||||||||44.1 MPa|https://en.wikipedia.org/wiki/Acrylonitrile_butadiene_styrene|| -Acrylic-Glass-Generic|Acrylic Glass||Poly(methyl methacrylate) (PMMA, acrylic, acrylic glass, trade names Plexiglas, Acrylite, Lucite, Perspex) a transparent thermoplastic often used in sheet form as a lightweight or shatter-resistant alternative to glass.||Szkło akrylowe (szkło organiczne; inaczej pleksi, pleksiglas, metapleks) – przezroczyste tworzywo sztuczne, którego głównym składnikiem jest polimer – poli(metakrylan metylu) (PMMA).|of the material, i.e. for PLA is Thermoplast, for Steel is Metal Thermoplast||||||http://www.matweb.com/search/DataSheet.aspx?MatGUID=632572aeef2a4224b5ac8fbd4f1b6f77||2550 MPa|57.7 MPa|0.38||||103 MPa|1160 kg/m^3|||||||||||||1.08 GPa|||1480 J/kg/K||||0.193 W/m/K|0.000075 m/m/K||||||||73.7 MPa|https://en.wikipedia.org/wiki/Poly(methyl_methacrylate)|| -AlMg3F24|AlMg3F24|AlMg3F24||||Metal|Aluminium|Aluminium|3.3535.26|DIN 1725||||70000 MPa|250 MPa|0.3|||||2700 kg/m^3|||||||||||||27000 MPa||||||||0.000023 m/m/K||5||||||180 MPa||| -AlMgSi1F31|AlMgSi1F31|AlMgSi1F31||||Metal|Aluminium|Aluminium|3.2315.72|DIN 1725||||70000 MPa|310 MPa|0.3|||||2700 kg/m^3|||||||||||||27000 MPa||||||||0.000023 m/m/K||10||||||260 MPa||| -Aluminum-6061-T6|Aluminum 6061-T6||Precipitation-hardened, Nonferrous Aluminum alloy|||Metal|Aluminium|Aluminium||||||69000 MPa|310 MPa|0.33|||||2700 kg/m^3||||||||||||||||||||167 W/m/K||||||||||https://en.wikipedia.org/wiki/6061_aluminium_alloy|| -AlZn4-5Mg1F35|AlZn4,5Mg1F35|AlZn4,5Mg1F35||||Metal|Aluminium|Aluminium|3.4335.71|DIN 1725||||70000 MPa|350 MPa|0.3|||||2700 kg/m^3|||||||||||||27000 MPa||||||||0.000023 m/m/K||10||||||290 MPa||| -CalculiX-Steel|CalculiX-Steel||Standard steel material for CalculiX sample calculations|||Metal||||||||210000 MPa||0.3|||||7900 kg/m^3||||||||||||||||590 J/kg/K||||43 W/m/K|0.000012 m/m/K||||||||||| -Concrete-Generic|Concrete||A standard C-25 construction concrete|||Aggregate|||||||Masterformat 03 33 13|32000 MPa||0.17||||25 MPa|2400 kg/m^3||||||||||||||||||||||||||||||https://en.wikipedia.org/wiki/Concrete|| -Glass-E-GlassFibre|Glass-E||Glass Fibre|||Glass|||||||||3445 MPa|||||1080 MPa|2580 kg/m^3||||||||||||||||||||||||||||||https://en.wikipedia.org/wiki/Glass_fiber|| -Glass-Generic|Glass||Generic soda-lime glass|Normalglas|Szkło sodowe|Glass||||||||72000 MPa||0.22|||||2520 kg/m^3|||||||||||||||||||||0.000009 m/m/K|||||||||https://en.wikipedia.org/wiki/Soda-lime_glass|| -Glass-S2-GlassFibre|Glass-S2||Glass Fibre|||Glass|||||||||4890 MPa|||||1600 MPa|2460 kg/m^3||||||||||||||||||||||||||||||https://en.wikipedia.org/wiki/Glass_fiber|| -None|None||This is a not defined material|||None||||||||0 MPa|0 MPa|0|||||0 kg/m^3|||||||||||||||||||||||||||||||| -PA6-Generic|Polyamide 6|||||||||||http://www.matweb.com/search/datasheet.aspx?MatGUID=8d78f3cfcb6f49d595896ce6ce6a2ef1||2930 MPa|75.5 MPa|0.39||||67.6 MPa|1150 kg/m^3||||||||||||||||1670 J/kg/K||||0.262 W/m/K|0.000082 m/m/K||||||||70.5 MPa|https://en.wikipedia.org/wiki/Nylon_6|| -PET-Generic|PET|||||||||||http://www.matweb.com/search/DataSheet.aspx?MatGUID=a696bdcdff6f41dd98f8eec3599eaa20||3150 MPa|38.8 MPa|0.36||||38.0 MPa|1380 kg/m^3|||||||||||||0.0385 GPa|||1140 J/kg/K||||0.181 W/m/K|0.000072 m/m/K||||||||62.8 MPa|https://en.wikipedia.org/wiki/Polyethylene_terephthalate|| -PLA-Generic|PLA||Polylactic acid or polylactide (PLA, Poly) is a biodegradable thermoplastic aliphatic polyester derived from renewable resources, such as corn starch, tapioca roots, chips, starch or sugarcane.|||Thermoplast||||||https://www.sd3d.com/wp-content/uploads/2017/06/MaterialTDS-PLA_01.pdf||3640 MPa|26.4 MPa|0.36|||||1240 kg/m^3||||||||||||||||1800 J/kg/K||||0.130 W/m/K|0.000041 m/m/K||||||||35.9 MPa|https://en.wikipedia.org/wiki/Polylactic_acid|| -PP-Generic|Polypropylene|||||||||||http://www.matweb.com/search/DataSheet.aspx?MatGUID=a882a1c603374e278d062f106dfda95b||1470 MPa|79.7 MPa|0.44||||10 MPa|916 kg/m^3||||||||||||||||1920 J/kg/K||||0.249 W/m/K|0.000123 m/m/K||||||||32.8 MPa|https://en.wikipedia.org/wiki/Polypropylene|| -PTFE-Generic|PTFE|||||||||||http://www.matweb.com/search/datasheet.aspx?MatGUID=4d14eac958e5401a8fd152e1261b6843||564 MPa|34.6 MPa|0.46||||10.2 MPa|2070 kg/m^3||||||||||||||||1010 J/kg/K||||0.263 W/m/K|0.000108 m/m/K||||||||20.5 MPa|https://en.wikipedia.org/wiki/Polytetrafluoroethylene|| -PVC-Generic|PVC|||||||||||http://www.matweb.com/search/DataSheet.aspx?MatGUID=1f650966ec834bb8833dd4c6e3116079||2800 MPa|50 MPa|0.38|||||1380 kg/m^3||||||||||||||||1000 J/kg/K||||0.150 W/m/K|0.000075 m/m/K|||||||||https://en.wikipedia.org/wiki/Polyvinyl_chloride|| -Steel-15CrNi6|15CrNi6||High-strength carbon steel|höchste Beanspruchung, Achsen, Wellen, Ritzel, Nocken, Kegelräder|Wysokowytrzymała stal węglowa|Metal|Case-hardened steel|Einsatzstahl|1.5919|EN 10084||||210000 MPa|1000 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||9||||||680 MPa||| -Steel-17CrNiMo6|17CrNiMo6|17CrNiMo6||höchste Beanspruchung, Wellen, Zahnräder||Metal|Case-hardened steel|Einsatzstahl|1.6587|EN 10084||||210000 MPa|1150 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||8||||||830 MPa||| -Steel-1C22|1C22|C22|Case hardened alloy steel|kleiner Vergütungsdurchmesser, gut schweißbar|Stal stopowa do nawęglania|Metal|Heat-treatable steel|Vergütungsstahl|1.0402|EN 10083-1||||210000 MPa|400 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||27||||||230 MPa||| -Steel-1C35|1C35|C35|Non-alloy quality steel||Wysokogatunkowa stal niestopowa|Metal|Heat-treatable steel|Vergütungsstahl|1.0501|EN 10083-1||||210000 MPa|480 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||21||||||300 MPa||| -Steel-1C45|1C45|C45|Non-alloy quality steel||Wysokogatunkowa stal niestopowa|Metal|Heat-treatable steel|Vergütungsstahl|1.0503|EN 10083-1||||210000 MPa|580 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||14||||||340 MPa||| -Steel-1C60|1C60|C60|Non-alloy quality steel||Wysokogatunkowa stal niestopowa|Metal|Heat-treatable steel|Vergütungsstahl|1.0601|EN 10083-1||||210000 MPa|650 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||11||||||380 MPa||| -Steel-20NiCrMo2|20NiCrMo2|21NiCrMo2||höchste Beanspruchung, Wellen, Zahnräder||Metal|Case-hardened steel|Einsatzstahl|1.6523|EN 10084||||210000 MPa|900 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||10||||||630 MPa||| -Steel-28Mn6|28Mn6|28Mn6||||Metal|Heat-treatable steel|Vergütungsstahl|1.117|EN 10083-1||||210000 MPa|800 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||13||||||590 MPa||| -Steel-2C10|2C10|Ck10||||Metal|Case-hardened steel|Einsatzstahl|1.1121|EN 10084||||210000 MPa|640 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||0||||||390 MPa||| -Steel-30CrNiMo8|30CrNiMo8|30CrNiMo8||höchste Beanspruchung, Wellen, Zahnräder||Metal|Heat-treatable steel|Vergütungsstahl|1.658|EN 10083-1||||210000 MPa|1250 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||9||||||1050 MPa||| -Steel-34CrNiMo6|34CrNiMo6|34CrNiMo6||höchste Beanspruchung, Wellen, Zahnräder||Metal|Heat-treatable steel|Vergütungsstahl|1.6582|EN 10083-1||||210000 MPa|1200 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||9||||||1000 MPa||| -Steel-36CrNiMo4|36CrNiMo4|36CrNiMo4||höchste Beanspruchung, Wellen, Zahnräder||Metal|Heat-treatable steel|Vergütungsstahl|1.6511|EN 10083-1||||210000 MPa|1100 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||10||||||900 MPa||| -Steel-36NiCrMo16|36NiCrMo16|36NiCrMo16||höchste Beanspruchung, Wellen, Zahnräder||Metal|Heat-treatable steel|Vergütungsstahl|1.6773|EN 10083-1||||210000 MPa|1250 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||9||||||1050 MPa||| -Steel-3C15|3C15|Cm15||||Metal|Case-hardened steel|Einsatzstahl|1.114|EN 10084||||210000 MPa|740 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||0||||||440 MPa||| -Steel-3C22|3C22|Cm22||||Metal|Heat-treatable steel|Vergütungsstahl|1.1149|EN 10083-1||||210000 MPa|550 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||24||||||350 MPa||| -Steel-3C35|3C35|Cm35||||Metal|Heat-treatable steel|Vergütungsstahl|1.118|EN 10083-1||||210000 MPa|630 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||17||||||430 MPa||| -Steel-3V45|3V45|Cm45||||Metal|Heat-treatable steel|Vergütungsstahl|1.1201|EN 10083-1||||210000 MPa|700 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||14||||||500 MPa||| -Steel-C10|C10|C10||||Metal|Case-hardened steel|Einsatzstahl|1.0301|DIN 17210||||210000 MPa|650 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||16||||||380 MPa||| -Steel-C15|C15|C15||||Metal|Case-hardened steel|Einsatzstahl|1.0401|DIN 17210||||210000 MPa|750 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||14||||||430 MPa||| -Steel-C22E|C22E|Ck22||||Metal|Heat-treatable steel|Vergütungsstahl|1.1151|EN 10083-1||||210000 MPa|500 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||20||||||340 MPa||| -Steel-C25E|C25E|Ck25||||Metal|Heat-treatable steel|Vergütungsstahl|1.1158|EN 10083-1||||210000 MPa|550 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||19||||||370 MPa||| -Steel-C30E|C30E|Ck30||||Metal|Heat-treatable steel|Vergütungsstahl|1.1178|EN 10083-1||||210000 MPa|600 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||18||||||400 MPa||| -Steel-C40E|C40E|Ck40||||Metal|Heat-treatable steel|Vergütungsstahl|1.1186|EN 10083-1||||210000 MPa|650 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||16||||||460 MPa||| -Steel-C50E|C50E|Ck50||||Metal|Heat-treatable steel|Vergütungsstahl|1.1206|EN 10083-1||||210000 MPa|750 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||13||||||520 MPa||| -Steel-C55E|C55E|Ck55||||Metal|Heat-treatable steel|Vergütungsstahl|1.1203|EN 10083-1||||210000 MPa|800 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||13||||||550 MPa||| -Steel-C60E|C60E|Ck60||||Metal|Heat-treatable steel|Vergütungsstahl|1.1221|EN 10083-1||||210000 MPa|850 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||13||||||580 MPa||| -Steel-E295|E295|St50-2||||Metal|Mild steel|Baustahl|1.005|EN 10025||||210000 MPa|490 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||20||||||295 MPa||| -Steel-E295-GC|E295 GC|St50-2K||||Metal|Mild steel|Baustahl|1.0533|EN 10025||||210000 MPa|590 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||0||||||420 MPa||| -Steel-E335|E335|St60-2||||Metal|Mild steel|Baustahl|1.006|EN 10025||||210000 MPa|590 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||16||||||335 MPa||| -Steel-E335-GC|E335 GC|St60-2K||||Metal|Mild steel|Baustahl|1.0543|EN 10025||||210000 MPa|690 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||0||||||490 MPa||| -Steel-E360|E360|St70-2||||Metal|Mild steel|Baustahl|1.007|EN 10025||||210000 MPa|690 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||11||||||360 MPa||| -Steel-E360-GC|E360 GC|St70-2K||||Metal|Mild steel|Baustahl|1.0633|EN 10025||||210000 MPa|780 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||0||||||560 MPa||| -Steel-EN-GJL-100|EN-GJL-100|GG-10||für gering beanspruchte Teile||Metal|Cast iron|Guss|0.601|EN 1561||||88000 MPa|100 MPa|0.3|||||7200 kg/m^3|||||||||||||34000 MPa||||||||0.00001 m/m/K||0||||||||| -Steel-EN-GJL-150|EN-GJL-150|GG-15||für dünnwandige Teile wie Gehäuse, Ständer||Metal|Cast iron|Guss|0.6015|EN 1561||||95000 MPa|150 MPa|0.3|||||7200 kg/m^3|||||||||||||37000 MPa||||||||0.00001 m/m/K||0||||||98 MPa||| -Steel-EN-GJL-200|EN-GJL-200|GG-20||Hebel, Lager , Lagerböcke||Metal|Cast iron|Guss|0.602|EN 1561||||105000 MPa|200 MPa|0.3|||||7200 kg/m^3|||||||||||||40000 MPa||||||||0.00001 m/m/K||0||||||130 MPa||| -Steel-EN-GJL-250|EN-GJL-250|GG-25||||Metal|Cast iron|Guss|0.6025|EN 1561||||115000 MPa|250 MPa|0.3|||||7200 kg/m^3|||||||||||||44000 MPa||||||||0.00001 m/m/K||0||||||165 MPa||| -Steel-EN-GJL-300|EN-GJL-300|GG-30||hochbeanspruchbar, für Motorständer, Lagerschalen||Metal|Cast iron|Guss|0.603|EN 1561||||125000 MPa|300 MPa|0.3|||||7200 kg/m^3|||||||||||||48000 MPa||||||||0.00001 m/m/K||0||||||195 MPa||| -Steel-EN-GJL-350|EN-GJL-350|GG-35||höchstbeanspruchbar, für Teile mit konstanter Wanddicke, Pressenständer, Turbinengehäuse||Metal|Cast iron|Guss|0.6035|EN 1561||||135000 MPa|350 MPa|0.3|||||7200 kg/m^3|||||||||||||52000 MPa||||||||0.00001 m/m/K||15||||||228 MPa||| -Steel-EN-GJMB-350-10|EN-GJMB-350-10|GTS 35-10||gut spanbar, Schaltgabeln, Getriebe-, Achsgehäuse||Metal|Cast iron|Guss|0.8135|EN 1562||||175000 MPa|350 MPa|0.3|||||7200 kg/m^3|||||||||||||67000 MPa||||||||0.00001 m/m/K||10||||||200 MPa||| -Steel-EN-GJMB-550-4|EN-GJMB-550-4|GTS 55-04||Randschichthärtung, Kurbelwellen, Bremsträger, Federböcke, Kipphebel||Metal|Cast iron|Guss|0.8155|EN 1562||||175000 MPa|550 MPa|0.3|||||7200 kg/m^3|||||||||||||67000 MPa||||||||0.00001 m/m/K||2||||||340 MPa||| -Steel-EN-GJMB-650-2|EN-GJMB-650-2|GTS 65-02||Gabelköpfe||Metal|Cast iron|Guss|0.8165|EN 1562||||175000 MPa|650 MPa|0.3|||||7200 kg/m^3|||||||||||||67000 MPa||||||||0.00001 m/m/K||2||||||430 MPa||| -Steel-EN-GJMW-350-4|EN-GJMW-350-4|GTW 35-04||dünnwandige Teile, Fittings, Beschläge, Förderketten||Metal|Cast iron|Guss|0.8035|EN 1562||||175000 MPa|350 MPa|0.3|||||7200 kg/m^3|||||||||||||67000 MPa||||||||0.00001 m/m/K||4||||||||| -Steel-EN-GJMW-360-12|EN-GJMW-360-12|GTW S38-12||für Verbundschweißteile||Metal|Cast iron|Guss|0.8038|EN 1562||||175000 MPa|380 MPa|0.3|||||7200 kg/m^3|||||||||||||67000 MPa||||||||0.00001 m/m/K||5||||||200 MPa||| -Steel-EN-GJMW-400-5|EN-GJMW-400-5|GTW 40-05||gut schweißbar, Auspuffkrümmer, Schraubzwingen||Metal|Cast iron|Guss|0.804|EN 1562||||175000 MPa|400 MPa|0.3|||||7200 kg/m^3|||||||||||||67000 MPa||||||||0.00001 m/m/K||7||||||220 MPa||| -Steel-EN-GJMW-450-7|EN-GJMW-450-7|GTW 45-07||schlagfest, Fahrwerksteile||Metal|Cast iron|Guss|0.8045|EN 1562||||175000 MPa|450 MPa|0.3|||||7200 kg/m^3|||||||||||||67000 MPa||||||||0.00001 m/m/K||10||||||260 MPa||| -Steel-EN-GJS-400-15|EN-GJS-400-15|GGG-40||Pumpen-, Getriebegehäuse||Metal|Cast iron|Guss|0.704|EN 1563||||167000 MPa|400 MPa|0.3|||||7200 kg/m^3|||||||||||||65000 MPa||||||||0.000011 m/m/K||15||||||250 MPa||| -Steel-EN-GJS-500-7|EN-GJS-500-7|GGG-50||Seiltrommeln, Bremsteile, Zylinderköpfe||Metal|Cast iron|Guss|0.705|EN 1563||||170000 MPa|500 MPa|0.3|||||7200 kg/m^3|||||||||||||66000 MPa||||||||0.000011 m/m/K||2||||||320 MPa||| -Steel-EN-GJS-600-3|EN-GJS-600-3|GGG-60||Kurbelwellen, Stangen||Metal|Cast iron|Guss|0.706|EN 1563||||177000 MPa|600 MPa|0.3|||||7200 kg/m^3|||||||||||||67000 MPa||||||||0.000011 m/m/K||2||||||370 MPa||| -Steel-EN-GJS-700-2|EN-GJS-700-2|GGG-70||Kurbelwellen, Zahnräder, Turbinenschaufeln||Metal|Cast iron|Guss|0.707|EN 1563||||180000 MPa|700 MPa|0.3|||||7200 kg/m^3|||||||||||||67000 MPa||||||||0.000011 m/m/K||2||||||420 MPa||| -Steel-EN-GJS-800-1|EN-GJS-800-1|GGG-80||Zahnräder||Metal|Cast iron|Guss|0.708|EN 1563||||180000 MPa|800 MPa|0.3|||||7200 kg/m^3|||||||||||||67000 MPa||||||||0.000011 m/m/K||2||||||480 MPa||| -Steel-G16Mn5|G16Mn5|GS-16Mn5N||Gehäuse, Zahnräder, Bremsscheiben||Metal|Cast steel|Stahlguss|1.1131|DIN 1681||||210000 MPa|430 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||0||||||260 MPa||| -Steel-G200|G200|GS 38||mittlere dynamische und stoßartige Belastung, gut schweißbar||Metal|Cast steel|Stahlguss|1.042|DIN 1681||||210000 MPa|380 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||25||||||200 MPa||| -Steel-G20Mn5|G20Mn5|GS-20Mn5v||Gehäuse, Zahnräder, Bremsscheiben||Metal|Cast steel|Stahlguss|1.112|DIN 1681||||210000 MPa|500 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||0||||||360 MPa||| -Steel-G230|G230|GS 45||mittlere dynamische und stoßartige Belastung, gut schweißbar||Metal|Cast steel|Stahlguss|1.0446|DIN 1681||||210000 MPa|450 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||22||||||230 MPa||| -Steel-G260|G260|GS 52||||Metal|Cast steel|Stahlguss|1.0552|DIN 1681||||210000 MPa|520 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||18||||||260 MPa||| -Steel-G300|G300|GS 60||||Metal|Cast steel|Stahlguss|1.0558|DIN 1681||||210000 MPa|600 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||15||||||300 MPa||| -Steel-G30Mn5|G30Mn5|GS-30Mn5||||Metal|Cast steel|Stahlguss|1.1165|DIN 17205||||210000 MPa|520 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||14||||||400 MPa||| -Steel-Generic|Steel-Generic||This is a blend Steel material card. The values are at the low end of the spectrum. If you need a more precise material definition use the more specialised steel cards.|||Metal||||||||200000 MPa||0.3|||||7900 kg/m^3||||||||||||||||500 J/kg/K||||50 W/m/K|0.000012 m/m/K|||||||||https://en.wikipedia.org/wiki/Steel|| -Steel-S185|S185|St33||für geringe Beanspruchung||Metal|Mild steel|Baustahl|1.0035|EN 10025||||210000 MPa|310 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||18||||||190 MPa||| -Steel-S235JO|S235JO|St37-3U||||Metal|Mild steel|Baustahl|1.0114|EN 10025||||210000 MPa|360 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||26||||||235 MPa||| -Steel-S235JR|S235JR|St37-2||üblich für mäßige Beanspruchung, gut schweißbar, nicht für Hilfsrahmen||Metal|Mild steel|Baustahl|1.0037|EN 10025||||210000 MPa|360 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||26||||||235 MPa||| -Steel-S235JRG1|S235JRG1|USt37-2||üblich für mäßige Beanspruchung||Metal|Mild steel|Baustahl|1.0036|EN 10025||||210000 MPa|360 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||26||||||235 MPa||| -Steel-S260NC|S260NC|QStE260 N||gut biegbar, Fahrgestellrahmen, Hilfsrahmen, nicht für Punktlasten||Metal|Cold forming steel|Kaltumformstahl|1.0971|SEW 092||||210000 MPa|350 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||30||||||280 MPa||| -Steel-S275JO|S275JO|St44-3U||||Metal|Mild steel|Baustahl|1.0143|EN 10025||||210000 MPa|430 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||22||||||275 MPa||| -Steel-S275JR|S275JR|St44-2||Wellen, Achsen, gut bearbeitbar, gut schweißbar||Metal|Mild steel|Baustahl|1.0044|EN 10025||||210000 MPa|430 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||22||||||275 MPa||| -Steel-S275N|S275N|St E 275||||Metal|Fine grain steel|Feinkornstahl|1.049|EN 10113-2||||210000 MPa|370 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||24||||||275 MPa||| -Steel-S335JO|S335JO|St60-2U||||Metal|Mild steel|Baustahl|1.0553|EN 10025||||210000 MPa|510 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||22||||||355 MPa||| -Steel-S335JR|S335JR|St53-3||||Metal|Mild steel|Baustahl|1.0045|EN 10025||||210000 MPa|510 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||22||||||355 MPa||| -Steel-S335N|S335N|St E 355||||Metal|Fine grain steel|Feinkornstahl|1.0545|EN 10113-2||||210000 MPa|470 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||22||||||355 MPa||| -Steel-S340MC|S340MC|QStE340 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen, nicht für Punktlasten||Metal|Cold forming steel|Kaltumformstahl|1.0974|SEW 092||||210000 MPa|480 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||25||||||340 MPa||| -Steel-S355J2G3|S355J2G3|St52-3||||Metal|Mild steel|Baustahl|1.057|EN 10025||||210000 MPa|510 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||22||||||355 MPa||| -Steel-S380MC|S380MC|QStE380 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal|Cold forming steel|Kaltumformstahl|1.0978|SEW 092||||210000 MPa|520 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||23||||||380 MPa||| -Steel-S420MC|S420MC|QStE420 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal|Cold forming steel|Kaltumformstahl|1.098|EN 10149||||210000 MPa|550 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||21||||||420 MPa||| -Steel-S420N|S420N|St E 420||||Metal|Fine grain steel|Feinkornstahl|1.8902|EN 10113-2||||210000 MPa|520 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||19||||||420 MPa||| -Steel-S460MC|S460MC|QStE460 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal|Cold forming steel|Kaltumformstahl|1.0982|SEW 092||||210000 MPa|590 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||19||||||460 MPa||| -Steel-S460N|S460N|St E 460||||Metal|Fine grain steel|Feinkornstahl|1.8901|EN 10113-2||||210000 MPa|550 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||17||||||460 MPa||| -Steel-S500MC|S500MC|QStE500 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal|Cold forming steel|Kaltumformstahl|1.0984|EN 10149||||210000 MPa|620 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||17||||||500 MPa||| -Steel-S550MC|S550MC|QStE550 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal|Cold forming steel|Kaltumformstahl|1.0986|SEW 092||||210000 MPa|680 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||15||||||550 MPa||| -Steel-S690MC|S690MC|QStE690 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal|Cold forming steel|Kaltumformstahl|1.0966|SEW 092||||210000 MPa|790 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||15||||||690 MPa||| -Steel-St-37-2K|St 37-2K|St 37-2K||mäßige Beanspruchung||Metal|Mild steel|Baustahl|1.0161|EN 10025||||210000 MPa|460 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||0||||||320 MPa||| -Steel-St-E-255|St E 255|St E 255||||Metal|Fine grain steel|Feinkornstahl|1.0461|DIN 17102||||210000 MPa|360 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||0||||||260 MPa||| -Steel-St-E-315|St E 315|St E 315||||Metal|Fine grain steel|Feinkornstahl|1.0505|DIN 17102||||210000 MPa|440 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||0||||||320 MPa||| -Steel-St-E-380|St E 380|St E 380||||Metal|Fine grain steel|Feinkornstahl|1.89|DIN 17102||||210000 MPa|500 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||0||||||380 MPa||| -Steel-St-E-460|St E 460|St E 460||||Metal|Fine grain steel|Feinkornstahl|1.8905|DIN 17102||||210000 MPa|560 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||0||||||460 MPa||| -Steel-St-E-500|St E 500|St E 500||||Metal|Fine grain steel|Feinkornstahl|1.8907|DIN 17102||||210000 MPa|610 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||0||||||500 MPa||| -Steel-X2CrNiMoN17-13-3|X2CrNiMoN17-13-3|X2CrNiMoN 17 13 3||schlecht spanbar, gut schweißbar, gut kaltumformbar, Achsen, Wellen, Wärmetauscher||Metal|Stainless steel|Niro|1.4429|EN 10088||||200000 MPa|580 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||35||||||295 MPa||| -Steel-X2CrNiN24-4|X2CrNiN24-4|-||||Metal|Stainless steel|Niro|1.4362|EN 10088||||200000 MPa|600 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||25||||||400 MPa||| -Steel-X39CrMo17-1|X39CrMo17-1|-||||Metal|Stainless steel|Niro|1.4122|EN 10088||||213000 MPa|750 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||12||||||500 MPa||| -Steel-X3CrNiMo13-14|X3CrNiMo13-14|-||||Metal|Stainless steel|Niro|1.4313|EN 10088||||216000 MPa|900 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||11||||||800 MPa||| -Steel-X5CrNi18-10|X5CrNi18-10|X5CrNi 18 9||schlecht spanbar, gut schweißbar, gut kaltumformbar, Fahrzeugbau, Lebensmitteltechnik||Metal|Stainless steel|Niro|1.4301|EN 10088||||200000 MPa|520 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||40||||||210 MPa||| -Steel-X5CrNiMo17-12-2|X5CrNiMo17-12-2|X5CrNiMo 17 12 2||schlecht spanbar, gut schweißbar, gut kaltumformbar, Lebensmitteltechnik||Metal|Stainless steel|Niro|1.4401|EN 10088||||180000 MPa|520 MPa|0.3|||||7800 kg/m^3|||||||||||||68000 MPa||||||||0.000011 m/m/K||40||||||220 MPa||| -Steel-X6CrNiTi18-10|X6CrNiTi18-10|X10CrNiTi 18 9||schlecht spanbar, gut schweißbar, gut kaltumformbar, Schienenfahrzeugbau||Metal|Stainless steel|Niro|1.4541|EN 10088||||200000 MPa|500 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||40||||||200 MPa||| -Wood-Generic|Wood||A standard construction wood|||Aggregate||||||||12000 MPa||0.05|||||700 kg/m^3||||||||||||||||||||||||||||||https://en.wikipedia.org/wiki/Wood|| +FileName|Name|NameDE|Description|DescriptionDE|DescriptionPL|Father|KindOfMaterial|KindOfMaterialDE|MaterialNumber|Norm|ReferenceSource|SourceURL|StandardCode|AngleOfFriction|CompressiveStrength|Density|FractureToughness|PoissonRatio|ShearModulus|UltimateStrain|UltimateTensileStrength|YieldStrength|YoungsModulus|AmbientColor|Color|DiffuseColor|EmissiveColor|Enlargen|EnvironmentalEfficiencyClass|ExecutionInstructions|Finish|FireResistanceClass|FragmentShader|Model|SectionFillPattern|SectionLinewidth|Shininess|SoundTransmissionClass|SpecificHeat|SpecularColor|TexturePath|TextureScaling|ThermalConductivity|ThermalExpansionCoefficient|Transparency|UnitsPerQuantity|VertexShader|ViewColor|ViewFillPattern|ViewLinewidth|ProductURL|SpecificPrice|Vendor +ABS-Generic|ABS||This is a blend AcrylnitrilButadienStyrol (ABS) material card. The values are at the low end of the spectrum. If you need a more precise material definition use the more specialised ABS-blend cards.|||Thermoplast||||||http://www.matweb.com/search/DataSheet.aspx?MatGUID=eb7a78f5948d481c9493a67f0d089646||||1060 kg/m^3||0.37|||38.8 MPa|44.1 MPa|2300 MPa||||||||||||||||2050 J/kg/K||||0.158 W/m/K|0.000093 m/m/K|||||||https://en.wikipedia.org/wiki/Acrylonitrile_butadiene_styrene|| +Acrylic-Glass-Generic|Acrylic Glass||Poly(methyl methacrylate) (PMMA, acrylic, acrylic glass, trade names Plexiglas, Acrylite, Lucite, Perspex) a transparent thermoplastic often used in sheet form as a lightweight or shatter-resistant alternative to glass.||Szkło akrylowe (szkło organiczne; inaczej pleksi, pleksiglas, metapleks) – przezroczyste tworzywo sztuczne, którego głównym składnikiem jest polimer – poli(metakrylan metylu) (PMMA).|of the material, i.e. for PLA is Thermoplast, for Steel is Metal Thermoplast||||||http://www.matweb.com/search/DataSheet.aspx?MatGUID=632572aeef2a4224b5ac8fbd4f1b6f77|||103 MPa|1160 kg/m^3||0.38|1.08 GPa||57.7 MPa|73.7 MPa|2550 MPa||||||||||||||||1480 J/kg/K||||0.193 W/m/K|0.000075 m/m/K|||||||https://en.wikipedia.org/wiki/Poly(methyl_methacrylate)|| +AlMg3F24|AlMg3F24|AlMg3F24||||Metal|Aluminium|Aluminium|3.3535.26|DIN 1725||||||2700 kg/m^3||0.3|27000 MPa|5|250 MPa|180 MPa|70000 MPa|||||||||||||||||||||0.000023 m/m/K||||||||| +AlMgSi1F31|AlMgSi1F31|AlMgSi1F31||||Metal|Aluminium|Aluminium|3.2315.72|DIN 1725||||||2700 kg/m^3||0.3|27000 MPa|10|310 MPa|260 MPa|70000 MPa|||||||||||||||||||||0.000023 m/m/K||||||||| +Aluminum-6061-T6|Aluminum 6061-T6||Precipitation-hardened, Nonferrous Aluminum alloy|||Metal|Aluminium|Aluminium||||||||2700 kg/m^3||0.33|||310 MPa||69000 MPa||||||||||||||||||||167 W/m/K||||||||https://en.wikipedia.org/wiki/6061_aluminium_alloy|| +AlZn4-5Mg1F35|AlZn4,5Mg1F35|AlZn4,5Mg1F35||||Metal|Aluminium|Aluminium|3.4335.71|DIN 1725||||||2700 kg/m^3||0.3|27000 MPa|10|350 MPa|290 MPa|70000 MPa|||||||||||||||||||||0.000023 m/m/K||||||||| +CalculiX-Steel|CalculiX-Steel||Standard steel material for CalculiX sample calculations|||Metal||||||||||7900 kg/m^3||0.3|||||210000 MPa||||||||||||||||590 J/kg/K||||43 W/m/K|0.000012 m/m/K||||||||| +Concrete-Generic|Concrete||A standard C-25 construction concrete|||Aggregate|||||||Masterformat 03 33 13||25 MPa|2400 kg/m^3||0.17|||||32000 MPa||||||||||||||||||||||||||||https://en.wikipedia.org/wiki/Concrete|| +Glass-E-GlassFibre|Glass-E||Glass Fibre|||Glass|||||||||1080 MPa|2580 kg/m^3|||||3445 MPa||||||||||||||||||||||||||||||https://en.wikipedia.org/wiki/Glass_fiber|| +Glass-Generic|Glass||Generic soda-lime glass|Normalglas|Szkło sodowe|Glass||||||||||2520 kg/m^3||0.22|||||72000 MPa|||||||||||||||||||||0.000009 m/m/K|||||||https://en.wikipedia.org/wiki/Soda-lime_glass|| +Glass-S2-GlassFibre|Glass-S2||Glass Fibre|||Glass|||||||||1600 MPa|2460 kg/m^3|||||4890 MPa||||||||||||||||||||||||||||||https://en.wikipedia.org/wiki/Glass_fiber|| +None|None||This is a not defined material|||None||||||||||0 kg/m^3||0|||0 MPa||0 MPa|||||||||||||||||||||||||||||| +PA6-Generic|Polyamide 6|||||||||||http://www.matweb.com/search/datasheet.aspx?MatGUID=8d78f3cfcb6f49d595896ce6ce6a2ef1|||67.6 MPa|1150 kg/m^3||0.39|||75.5 MPa|70.5 MPa|2930 MPa||||||||||||||||1670 J/kg/K||||0.262 W/m/K|0.000082 m/m/K|||||||https://en.wikipedia.org/wiki/Nylon_6|| +PET-Generic|PET|||||||||||http://www.matweb.com/search/DataSheet.aspx?MatGUID=a696bdcdff6f41dd98f8eec3599eaa20|||38.0 MPa|1380 kg/m^3||0.36|0.0385 GPa||38.8 MPa|62.8 MPa|3150 MPa||||||||||||||||1140 J/kg/K||||0.181 W/m/K|0.000072 m/m/K|||||||https://en.wikipedia.org/wiki/Polyethylene_terephthalate|| +PLA-Generic|PLA||Polylactic acid or polylactide (PLA, Poly) is a biodegradable thermoplastic aliphatic polyester derived from renewable resources, such as corn starch, tapioca roots, chips, starch or sugarcane.|||Thermoplast||||||https://www.sd3d.com/wp-content/uploads/2017/06/MaterialTDS-PLA_01.pdf||||1240 kg/m^3||0.36|||26.4 MPa|35.9 MPa|3640 MPa||||||||||||||||1800 J/kg/K||||0.130 W/m/K|0.000041 m/m/K|||||||https://en.wikipedia.org/wiki/Polylactic_acid|| +PP-Generic|Polypropylene|||||||||||http://www.matweb.com/search/DataSheet.aspx?MatGUID=a882a1c603374e278d062f106dfda95b|||10 MPa|916 kg/m^3||0.44|||79.7 MPa|32.8 MPa|1470 MPa||||||||||||||||1920 J/kg/K||||0.249 W/m/K|0.000123 m/m/K|||||||https://en.wikipedia.org/wiki/Polypropylene|| +PTFE-Generic|PTFE|||||||||||http://www.matweb.com/search/datasheet.aspx?MatGUID=4d14eac958e5401a8fd152e1261b6843|||10.2 MPa|2070 kg/m^3||0.46|||34.6 MPa|20.5 MPa|564 MPa||||||||||||||||1010 J/kg/K||||0.263 W/m/K|0.000108 m/m/K|||||||https://en.wikipedia.org/wiki/Polytetrafluoroethylene|| +PVC-Generic|PVC|||||||||||http://www.matweb.com/search/DataSheet.aspx?MatGUID=1f650966ec834bb8833dd4c6e3116079||||1380 kg/m^3||0.38|||50 MPa||2800 MPa||||||||||||||||1000 J/kg/K||||0.150 W/m/K|0.000075 m/m/K|||||||https://en.wikipedia.org/wiki/Polyvinyl_chloride|| +Steel-15CrNi6|15CrNi6||High-strength carbon steel|höchste Beanspruchung, Achsen, Wellen, Ritzel, Nocken, Kegelräder|Wysokowytrzymała stal węglowa|Metal|Case-hardened steel|Einsatzstahl|1.5919|EN 10084||||||7800 kg/m^3||0.3|81000 MPa|9|1000 MPa|680 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-17CrNiMo6|17CrNiMo6|17CrNiMo6||höchste Beanspruchung, Wellen, Zahnräder||Metal|Case-hardened steel|Einsatzstahl|1.6587|EN 10084||||||7800 kg/m^3||0.3|81000 MPa|8|1150 MPa|830 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-1C22|1C22|C22|Case hardened alloy steel|kleiner Vergütungsdurchmesser, gut schweißbar|Stal stopowa do nawęglania|Metal|Heat-treatable steel|Vergütungsstahl|1.0402|EN 10083-1||||||7800 kg/m^3||0.3|81000 MPa|27|400 MPa|230 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-1C35|1C35|C35|Non-alloy quality steel||Wysokogatunkowa stal niestopowa|Metal|Heat-treatable steel|Vergütungsstahl|1.0501|EN 10083-1||||||7800 kg/m^3||0.3|81000 MPa|21|480 MPa|300 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-1C45|1C45|C45|Non-alloy quality steel||Wysokogatunkowa stal niestopowa|Metal|Heat-treatable steel|Vergütungsstahl|1.0503|EN 10083-1||||||7800 kg/m^3||0.3|81000 MPa|14|580 MPa|340 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-1C60|1C60|C60|Non-alloy quality steel||Wysokogatunkowa stal niestopowa|Metal|Heat-treatable steel|Vergütungsstahl|1.0601|EN 10083-1||||||7800 kg/m^3||0.3|81000 MPa|11|650 MPa|380 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-20NiCrMo2|20NiCrMo2|21NiCrMo2||höchste Beanspruchung, Wellen, Zahnräder||Metal|Case-hardened steel|Einsatzstahl|1.6523|EN 10084||||||7800 kg/m^3||0.3|81000 MPa|10|900 MPa|630 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-28Mn6|28Mn6|28Mn6||||Metal|Heat-treatable steel|Vergütungsstahl|1.117|EN 10083-1||||||7800 kg/m^3||0.3|81000 MPa|13|800 MPa|590 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-2C10|2C10|Ck10||||Metal|Case-hardened steel|Einsatzstahl|1.1121|EN 10084||||||7800 kg/m^3||0.3|81000 MPa|0|640 MPa|390 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-30CrNiMo8|30CrNiMo8|30CrNiMo8||höchste Beanspruchung, Wellen, Zahnräder||Metal|Heat-treatable steel|Vergütungsstahl|1.658|EN 10083-1||||||7800 kg/m^3||0.3|81000 MPa|9|1250 MPa|1050 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-34CrNiMo6|34CrNiMo6|34CrNiMo6||höchste Beanspruchung, Wellen, Zahnräder||Metal|Heat-treatable steel|Vergütungsstahl|1.6582|EN 10083-1||||||7800 kg/m^3||0.3|81000 MPa|9|1200 MPa|1000 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-36CrNiMo4|36CrNiMo4|36CrNiMo4||höchste Beanspruchung, Wellen, Zahnräder||Metal|Heat-treatable steel|Vergütungsstahl|1.6511|EN 10083-1||||||7800 kg/m^3||0.3|81000 MPa|10|1100 MPa|900 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-36NiCrMo16|36NiCrMo16|36NiCrMo16||höchste Beanspruchung, Wellen, Zahnräder||Metal|Heat-treatable steel|Vergütungsstahl|1.6773|EN 10083-1||||||7800 kg/m^3||0.3|81000 MPa|9|1250 MPa|1050 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-3C15|3C15|Cm15||||Metal|Case-hardened steel|Einsatzstahl|1.114|EN 10084||||||7800 kg/m^3||0.3|81000 MPa|0|740 MPa|440 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-3C22|3C22|Cm22||||Metal|Heat-treatable steel|Vergütungsstahl|1.1149|EN 10083-1||||||7800 kg/m^3||0.3|81000 MPa|24|550 MPa|350 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-3C35|3C35|Cm35||||Metal|Heat-treatable steel|Vergütungsstahl|1.118|EN 10083-1||||||7800 kg/m^3||0.3|81000 MPa|17|630 MPa|430 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-3V45|3V45|Cm45||||Metal|Heat-treatable steel|Vergütungsstahl|1.1201|EN 10083-1||||||7800 kg/m^3||0.3|81000 MPa|14|700 MPa|500 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-C10|C10|C10||||Metal|Case-hardened steel|Einsatzstahl|1.0301|DIN 17210||||||7800 kg/m^3||0.3|81000 MPa|16|650 MPa|380 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-C15|C15|C15||||Metal|Case-hardened steel|Einsatzstahl|1.0401|DIN 17210||||||7800 kg/m^3||0.3|81000 MPa|14|750 MPa|430 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-C22E|C22E|Ck22||||Metal|Heat-treatable steel|Vergütungsstahl|1.1151|EN 10083-1||||||7800 kg/m^3||0.3|81000 MPa|20|500 MPa|340 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-C25E|C25E|Ck25||||Metal|Heat-treatable steel|Vergütungsstahl|1.1158|EN 10083-1||||||7800 kg/m^3||0.3|81000 MPa|19|550 MPa|370 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-C30E|C30E|Ck30||||Metal|Heat-treatable steel|Vergütungsstahl|1.1178|EN 10083-1||||||7800 kg/m^3||0.3|81000 MPa|18|600 MPa|400 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-C40E|C40E|Ck40||||Metal|Heat-treatable steel|Vergütungsstahl|1.1186|EN 10083-1||||||7800 kg/m^3||0.3|81000 MPa|16|650 MPa|460 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-C50E|C50E|Ck50||||Metal|Heat-treatable steel|Vergütungsstahl|1.1206|EN 10083-1||||||7800 kg/m^3||0.3|81000 MPa|13|750 MPa|520 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-C55E|C55E|Ck55||||Metal|Heat-treatable steel|Vergütungsstahl|1.1203|EN 10083-1||||||7800 kg/m^3||0.3|81000 MPa|13|800 MPa|550 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-C60E|C60E|Ck60||||Metal|Heat-treatable steel|Vergütungsstahl|1.1221|EN 10083-1||||||7800 kg/m^3||0.3|81000 MPa|13|850 MPa|580 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-E295|E295|St50-2||||Metal|Mild steel|Baustahl|1.005|EN 10025||||||7800 kg/m^3||0.3|81000 MPa|20|490 MPa|295 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-E295-GC|E295 GC|St50-2K||||Metal|Mild steel|Baustahl|1.0533|EN 10025||||||7800 kg/m^3||0.3|81000 MPa|0|590 MPa|420 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-E335|E335|St60-2||||Metal|Mild steel|Baustahl|1.006|EN 10025||||||7800 kg/m^3||0.3|81000 MPa|16|590 MPa|335 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-E335-GC|E335 GC|St60-2K||||Metal|Mild steel|Baustahl|1.0543|EN 10025||||||7800 kg/m^3||0.3|81000 MPa|0|690 MPa|490 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-E360|E360|St70-2||||Metal|Mild steel|Baustahl|1.007|EN 10025||||||7800 kg/m^3||0.3|81000 MPa|11|690 MPa|360 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-E360-GC|E360 GC|St70-2K||||Metal|Mild steel|Baustahl|1.0633|EN 10025||||||7800 kg/m^3||0.3|81000 MPa|0|780 MPa|560 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-EN-GJL-100|EN-GJL-100|GG-10||für gering beanspruchte Teile||Metal|Cast iron|Guss|0.601|EN 1561||||||7200 kg/m^3||0.3|34000 MPa|0|100 MPa||88000 MPa|||||||||||||||||||||0.00001 m/m/K||||||||| +Steel-EN-GJL-150|EN-GJL-150|GG-15||für dünnwandige Teile wie Gehäuse, Ständer||Metal|Cast iron|Guss|0.6015|EN 1561||||||7200 kg/m^3||0.3|37000 MPa|0|150 MPa|98 MPa|95000 MPa|||||||||||||||||||||0.00001 m/m/K||||||||| +Steel-EN-GJL-200|EN-GJL-200|GG-20||Hebel, Lager , Lagerböcke||Metal|Cast iron|Guss|0.602|EN 1561||||||7200 kg/m^3||0.3|40000 MPa|0|200 MPa|130 MPa|105000 MPa|||||||||||||||||||||0.00001 m/m/K||||||||| +Steel-EN-GJL-250|EN-GJL-250|GG-25||||Metal|Cast iron|Guss|0.6025|EN 1561||||||7200 kg/m^3||0.3|44000 MPa|0|250 MPa|165 MPa|115000 MPa|||||||||||||||||||||0.00001 m/m/K||||||||| +Steel-EN-GJL-300|EN-GJL-300|GG-30||hochbeanspruchbar, für Motorständer, Lagerschalen||Metal|Cast iron|Guss|0.603|EN 1561||||||7200 kg/m^3||0.3|48000 MPa|0|300 MPa|195 MPa|125000 MPa|||||||||||||||||||||0.00001 m/m/K||||||||| +Steel-EN-GJL-350|EN-GJL-350|GG-35||höchstbeanspruchbar, für Teile mit konstanter Wanddicke, Pressenständer, Turbinengehäuse||Metal|Cast iron|Guss|0.6035|EN 1561||||||7200 kg/m^3||0.3|52000 MPa|15|350 MPa|228 MPa|135000 MPa|||||||||||||||||||||0.00001 m/m/K||||||||| +Steel-EN-GJMB-350-10|EN-GJMB-350-10|GTS 35-10||gut spanbar, Schaltgabeln, Getriebe-, Achsgehäuse||Metal|Cast iron|Guss|0.8135|EN 1562||||||7200 kg/m^3||0.3|67000 MPa|10|350 MPa|200 MPa|175000 MPa|||||||||||||||||||||0.00001 m/m/K||||||||| +Steel-EN-GJMB-550-4|EN-GJMB-550-4|GTS 55-04||Randschichthärtung, Kurbelwellen, Bremsträger, Federböcke, Kipphebel||Metal|Cast iron|Guss|0.8155|EN 1562||||||7200 kg/m^3||0.3|67000 MPa|2|550 MPa|340 MPa|175000 MPa|||||||||||||||||||||0.00001 m/m/K||||||||| +Steel-EN-GJMB-650-2|EN-GJMB-650-2|GTS 65-02||Gabelköpfe||Metal|Cast iron|Guss|0.8165|EN 1562||||||7200 kg/m^3||0.3|67000 MPa|2|650 MPa|430 MPa|175000 MPa|||||||||||||||||||||0.00001 m/m/K||||||||| +Steel-EN-GJMW-350-4|EN-GJMW-350-4|GTW 35-04||dünnwandige Teile, Fittings, Beschläge, Förderketten||Metal|Cast iron|Guss|0.8035|EN 1562||||||7200 kg/m^3||0.3|67000 MPa|4|350 MPa||175000 MPa|||||||||||||||||||||0.00001 m/m/K||||||||| +Steel-EN-GJMW-360-12|EN-GJMW-360-12|GTW S38-12||für Verbundschweißteile||Metal|Cast iron|Guss|0.8038|EN 1562||||||7200 kg/m^3||0.3|67000 MPa|5|380 MPa|200 MPa|175000 MPa|||||||||||||||||||||0.00001 m/m/K||||||||| +Steel-EN-GJMW-400-5|EN-GJMW-400-5|GTW 40-05||gut schweißbar, Auspuffkrümmer, Schraubzwingen||Metal|Cast iron|Guss|0.804|EN 1562||||||7200 kg/m^3||0.3|67000 MPa|7|400 MPa|220 MPa|175000 MPa|||||||||||||||||||||0.00001 m/m/K||||||||| +Steel-EN-GJMW-450-7|EN-GJMW-450-7|GTW 45-07||schlagfest, Fahrwerksteile||Metal|Cast iron|Guss|0.8045|EN 1562||||||7200 kg/m^3||0.3|67000 MPa|10|450 MPa|260 MPa|175000 MPa|||||||||||||||||||||0.00001 m/m/K||||||||| +Steel-EN-GJS-400-15|EN-GJS-400-15|GGG-40||Pumpen-, Getriebegehäuse||Metal|Cast iron|Guss|0.704|EN 1563||||||7200 kg/m^3||0.3|65000 MPa|15|400 MPa|250 MPa|167000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-EN-GJS-500-7|EN-GJS-500-7|GGG-50||Seiltrommeln, Bremsteile, Zylinderköpfe||Metal|Cast iron|Guss|0.705|EN 1563||||||7200 kg/m^3||0.3|66000 MPa|2|500 MPa|320 MPa|170000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-EN-GJS-600-3|EN-GJS-600-3|GGG-60||Kurbelwellen, Stangen||Metal|Cast iron|Guss|0.706|EN 1563||||||7200 kg/m^3||0.3|67000 MPa|2|600 MPa|370 MPa|177000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-EN-GJS-700-2|EN-GJS-700-2|GGG-70||Kurbelwellen, Zahnräder, Turbinenschaufeln||Metal|Cast iron|Guss|0.707|EN 1563||||||7200 kg/m^3||0.3|67000 MPa|2|700 MPa|420 MPa|180000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-EN-GJS-800-1|EN-GJS-800-1|GGG-80||Zahnräder||Metal|Cast iron|Guss|0.708|EN 1563||||||7200 kg/m^3||0.3|67000 MPa|2|800 MPa|480 MPa|180000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-G16Mn5|G16Mn5|GS-16Mn5N||Gehäuse, Zahnräder, Bremsscheiben||Metal|Cast steel|Stahlguss|1.1131|DIN 1681||||||7800 kg/m^3||0.3|81000 MPa|0|430 MPa|260 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-G200|G200|GS 38||mittlere dynamische und stoßartige Belastung, gut schweißbar||Metal|Cast steel|Stahlguss|1.042|DIN 1681||||||7800 kg/m^3||0.3|81000 MPa|25|380 MPa|200 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-G20Mn5|G20Mn5|GS-20Mn5v||Gehäuse, Zahnräder, Bremsscheiben||Metal|Cast steel|Stahlguss|1.112|DIN 1681||||||7800 kg/m^3||0.3|81000 MPa|0|500 MPa|360 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-G230|G230|GS 45||mittlere dynamische und stoßartige Belastung, gut schweißbar||Metal|Cast steel|Stahlguss|1.0446|DIN 1681||||||7800 kg/m^3||0.3|81000 MPa|22|450 MPa|230 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-G260|G260|GS 52||||Metal|Cast steel|Stahlguss|1.0552|DIN 1681||||||7800 kg/m^3||0.3|81000 MPa|18|520 MPa|260 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-G300|G300|GS 60||||Metal|Cast steel|Stahlguss|1.0558|DIN 1681||||||7800 kg/m^3||0.3|81000 MPa|15|600 MPa|300 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-G30Mn5|G30Mn5|GS-30Mn5||||Metal|Cast steel|Stahlguss|1.1165|DIN 17205||||||7800 kg/m^3||0.3|81000 MPa|14|520 MPa|400 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-Generic|Steel-Generic||This is a blend Steel material card. The values are at the low end of the spectrum. If you need a more precise material definition use the more specialised steel cards.|||Metal||||||||||7900 kg/m^3||0.3|||||200000 MPa||||||||||||||||500 J/kg/K||||50 W/m/K|0.000012 m/m/K|||||||https://en.wikipedia.org/wiki/Steel|| +Steel-S185|S185|St33||für geringe Beanspruchung||Metal|Mild steel|Baustahl|1.0035|EN 10025||||||7800 kg/m^3||0.3|81000 MPa|18|310 MPa|190 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-S235JO|S235JO|St37-3U||||Metal|Mild steel|Baustahl|1.0114|EN 10025||||||7800 kg/m^3||0.3|81000 MPa|26|360 MPa|235 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-S235JR|S235JR|St37-2||üblich für mäßige Beanspruchung, gut schweißbar, nicht für Hilfsrahmen||Metal|Mild steel|Baustahl|1.0037|EN 10025||||||7800 kg/m^3||0.3|81000 MPa|26|360 MPa|235 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-S235JRG1|S235JRG1|USt37-2||üblich für mäßige Beanspruchung||Metal|Mild steel|Baustahl|1.0036|EN 10025||||||7800 kg/m^3||0.3|81000 MPa|26|360 MPa|235 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-S260NC|S260NC|QStE260 N||gut biegbar, Fahrgestellrahmen, Hilfsrahmen, nicht für Punktlasten||Metal|Cold forming steel|Kaltumformstahl|1.0971|SEW 092||||||7800 kg/m^3||0.3|81000 MPa|30|350 MPa|280 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-S275JO|S275JO|St44-3U||||Metal|Mild steel|Baustahl|1.0143|EN 10025||||||7800 kg/m^3||0.3|81000 MPa|22|430 MPa|275 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-S275JR|S275JR|St44-2||Wellen, Achsen, gut bearbeitbar, gut schweißbar||Metal|Mild steel|Baustahl|1.0044|EN 10025||||||7800 kg/m^3||0.3|81000 MPa|22|430 MPa|275 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-S275N|S275N|St E 275||||Metal|Fine grain steel|Feinkornstahl|1.049|EN 10113-2||||||7800 kg/m^3||0.3|81000 MPa|24|370 MPa|275 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-S335JO|S335JO|St60-2U||||Metal|Mild steel|Baustahl|1.0553|EN 10025||||||7800 kg/m^3||0.3|81000 MPa|22|510 MPa|355 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-S335JR|S335JR|St53-3||||Metal|Mild steel|Baustahl|1.0045|EN 10025||||||7800 kg/m^3||0.3|81000 MPa|22|510 MPa|355 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-S335N|S335N|St E 355||||Metal|Fine grain steel|Feinkornstahl|1.0545|EN 10113-2||||||7800 kg/m^3||0.3|81000 MPa|22|470 MPa|355 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-S340MC|S340MC|QStE340 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen, nicht für Punktlasten||Metal|Cold forming steel|Kaltumformstahl|1.0974|SEW 092||||||7800 kg/m^3||0.3|81000 MPa|25|480 MPa|340 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-S355J2G3|S355J2G3|St52-3||||Metal|Mild steel|Baustahl|1.057|EN 10025||||||7800 kg/m^3||0.3|81000 MPa|22|510 MPa|355 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-S380MC|S380MC|QStE380 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal|Cold forming steel|Kaltumformstahl|1.0978|SEW 092||||||7800 kg/m^3||0.3|81000 MPa|23|520 MPa|380 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-S420MC|S420MC|QStE420 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal|Cold forming steel|Kaltumformstahl|1.098|EN 10149||||||7800 kg/m^3||0.3|81000 MPa|21|550 MPa|420 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-S420N|S420N|St E 420||||Metal|Fine grain steel|Feinkornstahl|1.8902|EN 10113-2||||||7800 kg/m^3||0.3|81000 MPa|19|520 MPa|420 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-S460MC|S460MC|QStE460 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal|Cold forming steel|Kaltumformstahl|1.0982|SEW 092||||||7800 kg/m^3||0.3|81000 MPa|19|590 MPa|460 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-S460N|S460N|St E 460||||Metal|Fine grain steel|Feinkornstahl|1.8901|EN 10113-2||||||7800 kg/m^3||0.3|81000 MPa|17|550 MPa|460 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-S500MC|S500MC|QStE500 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal|Cold forming steel|Kaltumformstahl|1.0984|EN 10149||||||7800 kg/m^3||0.3|81000 MPa|17|620 MPa|500 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-S550MC|S550MC|QStE550 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal|Cold forming steel|Kaltumformstahl|1.0986|SEW 092||||||7800 kg/m^3||0.3|81000 MPa|15|680 MPa|550 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-S690MC|S690MC|QStE690 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal|Cold forming steel|Kaltumformstahl|1.0966|SEW 092||||||7800 kg/m^3||0.3|81000 MPa|15|790 MPa|690 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-St-37-2K|St 37-2K|St 37-2K||mäßige Beanspruchung||Metal|Mild steel|Baustahl|1.0161|EN 10025||||||7800 kg/m^3||0.3|81000 MPa|0|460 MPa|320 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-St-E-255|St E 255|St E 255||||Metal|Fine grain steel|Feinkornstahl|1.0461|DIN 17102||||||7800 kg/m^3||0.3|81000 MPa|0|360 MPa|260 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-St-E-315|St E 315|St E 315||||Metal|Fine grain steel|Feinkornstahl|1.0505|DIN 17102||||||7800 kg/m^3||0.3|81000 MPa|0|440 MPa|320 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-St-E-380|St E 380|St E 380||||Metal|Fine grain steel|Feinkornstahl|1.89|DIN 17102||||||7800 kg/m^3||0.3|81000 MPa|0|500 MPa|380 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-St-E-460|St E 460|St E 460||||Metal|Fine grain steel|Feinkornstahl|1.8905|DIN 17102||||||7800 kg/m^3||0.3|81000 MPa|0|560 MPa|460 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-St-E-500|St E 500|St E 500||||Metal|Fine grain steel|Feinkornstahl|1.8907|DIN 17102||||||7800 kg/m^3||0.3|81000 MPa|0|610 MPa|500 MPa|210000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-X2CrNiMoN17-13-3|X2CrNiMoN17-13-3|X2CrNiMoN 17 13 3||schlecht spanbar, gut schweißbar, gut kaltumformbar, Achsen, Wellen, Wärmetauscher||Metal|Stainless steel|Niro|1.4429|EN 10088||||||7800 kg/m^3||0.3|81000 MPa|35|580 MPa|295 MPa|200000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-X2CrNiN24-4|X2CrNiN24-4|-||||Metal|Stainless steel|Niro|1.4362|EN 10088||||||7800 kg/m^3||0.3|81000 MPa|25|600 MPa|400 MPa|200000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-X39CrMo17-1|X39CrMo17-1|-||||Metal|Stainless steel|Niro|1.4122|EN 10088||||||7800 kg/m^3||0.3|81000 MPa|12|750 MPa|500 MPa|213000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-X3CrNiMo13-14|X3CrNiMo13-14|-||||Metal|Stainless steel|Niro|1.4313|EN 10088||||||7800 kg/m^3||0.3|81000 MPa|11|900 MPa|800 MPa|216000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-X5CrNi18-10|X5CrNi18-10|X5CrNi 18 9||schlecht spanbar, gut schweißbar, gut kaltumformbar, Fahrzeugbau, Lebensmitteltechnik||Metal|Stainless steel|Niro|1.4301|EN 10088||||||7800 kg/m^3||0.3|81000 MPa|40|520 MPa|210 MPa|200000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-X5CrNiMo17-12-2|X5CrNiMo17-12-2|X5CrNiMo 17 12 2||schlecht spanbar, gut schweißbar, gut kaltumformbar, Lebensmitteltechnik||Metal|Stainless steel|Niro|1.4401|EN 10088||||||7800 kg/m^3||0.3|68000 MPa|40|520 MPa|220 MPa|180000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Steel-X6CrNiTi18-10|X6CrNiTi18-10|X10CrNiTi 18 9||schlecht spanbar, gut schweißbar, gut kaltumformbar, Schienenfahrzeugbau||Metal|Stainless steel|Niro|1.4541|EN 10088||||||7800 kg/m^3||0.3|81000 MPa|40|500 MPa|200 MPa|200000 MPa|||||||||||||||||||||0.000011 m/m/K||||||||| +Wood-Generic|Wood||A standard construction wood|||Aggregate||||||||||700 kg/m^3||0.05|||||12000 MPa||||||||||||||||||||||||||||https://en.wikipedia.org/wiki/Wood|| diff --git a/src/Mod/Material/StandardMaterial/Tools/Materials.ods b/src/Mod/Material/StandardMaterial/Tools/Materials.ods index 97d36a4416568429501a32b05bdc846b2f07c4c8..b8e7009e271824eb62f35ae5827b80a73844b6fd 100644 GIT binary patch delta 19476 zcmYg$WmH{F%r5R)+}#}x?!}?FySr=ggL`o(92^PjEtPrYzPDeEvZ95Q1r@4ifeeUUl~UF67knOY&HEdh4y2+{>;F`=NHyha5JNM zKJsri|KUBzb%+5EF|qKH_t$qFxJ>xr1u~H5rYjO1?y<~#Nl7f$lX&-t^HKSlU`_MT z1Q^kqYoKW&4q;2-r)LU>(fsAsqODpclnS|=v5le(CkgDxrR_8!1{9(U()+WJ{Ov5} zhO|w`%1-_^oN5x!!_(BN@^TLc%K5H~IwDx=J_pY-`2c`7!ybUv4|9VlNU~alSNUjO zX0E06!eC&ooGO7E?Wwwf0~OJ?DW23trk1aP?tDR9OihZh_$aRgW+?vc8iy;QSx}1Xzx9RYb0MwKAV~*;i3B z6;iqqLH|dxyMUXc^iCd>GK#;s=Bcr)~rDE*W@qMo= z&uMlD>%#f(Dl$!D;nR?Eg+?Dxp_1TlMfcHiJfON7E1ToM#~7{MW~Bf$FW;|mWle6L z_cZRD`U;xVFHA@qzqdgVWdn!i<@Hv3Qo7q*Q=bWhc>9h(1${ zw_Ub{m4AXy#>;!tCH8V9m6&5A+MPKrkjlAjMth7S<8mnVl9CGIp1}OIP+W8;=Y)ON zzkzahrj_UVBuoWjAloz!|F-&>FLkLo14>^EyFM}QYqQWnK;o&~ZjT$0jN84rh|!wu zgqbVtWcm*q8^Rlfyz|h#A&Pup=<9{8-94XcSSBKT{`wj-7sk!7+kQ$F#_=ClO&N2Q zFEsLRzzWz4!guDigtH#Oc*1Qw!*P!NAmE@2pMpoMfP!xRMn*uE2y=fRI!N83!#mt- z^3(%uS&Rk=A*oBED$#7VK5U#2_8ZKyKVYqOE?m%f4lh*``@IVnhhFe>9+!`YoQx9` z);>>pR<~OFLp(~s*9EqPx!WDvfPB*Ob0+_@aq1Z^)??pXVnEq@PLD5TdXmN zxAl*R#{TLTPNnO8>TA)`IexDVlcbVpu5&0HWFWYt6BTdu4{8~w*b;NsMLcN)kB3R$ zgE?_D`=#F~v~nmE<6X4GOhkV`7_j;&$Y^fWqWZitg@-G<$q&j+0nAuH%9b!7;66O3fZP*n57ksmAA1V?|aBZ(ra@%t((fNXkGG6nPdwreu>0Fj? zY}v8z91;u|kTzQ2@}>WrH(?J?zWHSVId%f&&gCI6HMGJ7+5x`)wqi<30LoiYsq!99 z>_21fMBpDmN2pNd{2JFQEa7lLRot76`$l|sRpuUG=g6rn;i%V6UFBTDpnC9U=7uQsY zii=C|DRA5TAVF+aCLDha#0YZ^Ex2OrqQcVE^Wb-sQZoDk0zGkr) zMc1M8L1}EEiV!w!zRU~<8NZN$tDLc+g?4gykKZt;00a6cd^9Y09+Tr9dH7b1lnsqT zc<)M2*W7;kKm|42_(%=rvhl#D$G)YR_N=p{lqH@71CODiYhgN6Ed>GY3ox_sRI}>2 z*dz1pCq6&#vwqWb*7;-FR$TiVQaaPw8y34$%?6e1?aw)CU?xlG`}So(5B`FhenBNf zek6B5u?MtAi^V#(NQyPtFGBS>=Q7d}xj|GA6f&MkZPy!e1P^MYex*JPM5VqT$w7EY zGRf6(U)B9J0*?m|XpE(x14v0UWX)7V=#*b(Db?Y_S@E$@gcv|%IK$VdlXzm|<*+oW z%|ZBM$tw-`9VG(4*s}I?V+zylV5v0L22B?=)3r_|Zp`)a%Y37cRFCA@YBFVEX1A#Y zHs5X$hnRtGqLVs?_0PXAAz`f&edp)gC~p>C!=q-TM2tV8`{~E+&|h8By{@O6+HW0 ztU)pCwN8dcl2}u%vGnLK1?9{yb)#BI$1Ywb&PI%8>eQZHOXlvdkzE#~U$Em_3zw?o zI_*gq<-aU78%Y9j27v#5ltjcEMnIsz(of8(nr^#nrgY_2 zEY|@C*Eb|ks>EJH<-8qn-IU&+g9$Z@uRT^KY+BA&V=?!bOI#v12Bv|sTDX2eCM%9e zH>59R4tn_k<-l57IUF#XM>Jnq_9u!9b}|XTbuTeN6&q8^svb*3Pn`H1P}-}KOCD%! zO^57QsOg-!{UQMh-k=Kq_}NGb{4%8)Y*W~$hbA>(iz5~t)PtqjIWC*FZuL5o#K!qO zUuRZCG?XpWZk&x)2AcmXxoOZgw*+WEti>gI%_3hY8CY;SGXoy8TgXK1<{?U?1>2D? z{YG7yrj-ws8i+*h^!s#MxdB(|ettLS!J>B`UAG2k#ztLJ&D{sGi-cgYfIPiABTwDO?k+fo+(=T1{>YZE zcW?jYa0to3tyHRr=GV)cYbDH(8Mp7L{!`lNPFnm6&GXvtMkCLruGYT!5Z)o?iSx@pMUROx*}!fkMb z?OiprV@j)nelku!b}(NIqF+3Qm1Me+M6Ldz3J98(v74`Jw-!y-D=fUKrmLEmuiQu!5FKd@c=}+e zvsLhQ0Ez9>j-k*mFeHLMO7jh@ke6Vaj)C~6YucyO;oW^I)^TELtZUx=hKC6vfBSH<@?s z(4{mnRYcSx3k-Xv=KTDn$I|oWhCRf(p05{NViE(Y1XN?W0z5j_SLbw;2YrX*5_D%59?7Y&Rp2QnwO06)VUyY zW^PRRLj1_3IQJwE_h9&i4-i&C3-rW3m{Ho0K?kfxBi!2#WWFFi6=we?vemOODzfLZ zq1~=@l;RjTOrabKMXkK#DIe3h*sqCR_H|NUz~oY6Omp&@&}JReY0a=#_%QH4oz7SW603cLpB4MiW$ zn#vI6BYi#qo)87{Gk;nZZ`F?<*@2{=@|zjnwn2ZpqQ%!CJQo?+*CRw%?|&!*HNl?cbZv@9d|m;v?Kx2; z4zJjVYjDmEg$7C+_Xi|4z{2Kx`d^IY!p_5uknn_gFZ|V@#;b|@LREz`jT+EMc2m}x zhK3!iW#U7@@~n$NQLwG?1lByeljb1Wwb-30FB#yI4un1SEoKou(cN&54@+mn}mNkb^QLk>@jU`nLXTM*=gY8FI*%q9>EZbmIXgk zgda(t;^q)VJ@L9Al=HsAIHw_?5FFhaJUW{|-h|>$!+;M#5AcLn93$CdmD9btHPJUL zTuu~gaU&Ju=a0_^?!PW*n9gYts!m9`YZ->d1ynI;_`}+_H!ZbRHi!|0OszjB17IIC zEv~endAQ81G3e=FlS@tsw&!m?0N^Bc&ePwujJRq~6Tx}q!vRp<@Wp;I;t}253MM7G zUV5Iv3Jx^)NWK}GMUg>)qJiT<$zn5tagFF5&-u?X^Ov7Mjtx71^W*V$KD{&`9!Nqy z=|Gz{M1h8Zy!4ms*`2DVliIUybcbl2gMo3IPCQfQ^;dNb5c_dMvL-Y$ggk85EJh

n&0!W0-llC}p>fnejx88~9VRY^R7{%e-#_ z+r*ov!+I&LVNk(ga=12^W1m~(kFPbVW&f&HYWs~A&;im%#*iZ;MsAw=OWMO;V3lsG z^utlwQkF}nf{ag83J2V^uO*y?o5|GKk=}`4*xe~mC4v^*iUJ}#LaY`ii)aVb~K@Iw; z+s_VE35_&p%GJ`pU#`w1EPKDiy`mLkdOauf(*|vT7^IBlA(kh8T}N9LfuRc6N#J&3 zxb(Gu)VN5+77EECYO2V|r!Th{{Z?>~cj=dIkj4WUBh`y-YN6XmODvWeCs1fKFQ#Rp zrQ+TIGC7pc2JE|Bru*4qFQX5=? zCiB9Yx1NmKN>cMkNc^fS)yk@t;PvN%jgy}o@{&PjS^l-=Nu0J6sf^@}ku-4|I4*Dg z_qr|F?XLLUOcB3A5%>?&XNXy&C7Ek?myw&($CB`T+2)IHyA|E!`gWexKAMf4SQSu* z<6h9qX?~A>Y;$=f@}lAXT>!Kc{0MF=oDhpNPbZ7(&J<)(g;o8HhnTm6r?ES9YFrC* z;Mvjk@9o<4I)s#~hCA;~aKs$;%FhddKQSvY2wpqEUk}w+ZxN@4(bHe@jIGA-D>@76 zQ+V8ppBb34p1^JGgU4g}5QeA48bC(QeMcF4ClcRzwv{d`#2R!+Pay>YsR)`-Czq|j?n;m$Fpee5i@<^q4KMcf zD)XLPdBD0oY6%lUO1UkgjXuN9ZIL{Y!(B1ezOTyG<+Z(98RV_@RmlT8Jv!*WgRvqp z=17gpyL+gPgWTX?alWp2 zD2;lUY=cB}{qlEd@NSko;?!0~9MenY4svX6l_CvhBaG_jX@w|()0a>0$D&3Gwfp#xFq!a=$%A*TzFV z3u8W#$mE*bllr`P+WH52bhLpsZJ{XIIW_@|KY z(lbywSC30X7**h5NZ7C|#@+aD{Lu~W^uW0C2-S{l`)Qs`yq@U00tZ&ur~RcB)_3J8 z(ZjwSsRr%TrN2c=Z`<1O_m54oZ8Y0_b|l98+iA2d@!W5wSqJkJ;t&(#cBgu?%o_qH zr&oe0!q`MWYH%G!LcHgmkJt*?g`Z<50&2{Yn=uXk+q)nOm`bpY`#q3S0Sc^*aa@{a zWwR2m7u1J4qg~-hlbYQxzzakNX?!NU7EWVQB(?N^f?mb&5_!Zu!r?5!pWW?9S>` zr5e5N1N^odp}TbrT-52;>Td*I9W+i>{u?SKro~p!k3|UYJO{(N!P4L-;%PQQ- zPowzP$)OZut9u})FjOx048N}xbKAt*%B~krg$*?ynh;?Nk7~oq8A#U2+V*%eDxqZ`!VJA;JVEcM2BFlpp#sqy&pu*gCaTVI{=B z9ND0A+sqpaD|#f5=KGI(#};-7PHjDu@}Kw^@z=vO_uGXJYwI1yJBy7}8eExOZW~Pa zpsR|Y{Ro)#pX~&dfVT*q8g}p;1I@cdls)HhzNdPnsI65w8Lx0+k7^NLL*$Q{gVjOnxdM2s6+!0jlAxyOucGH7 z{Ebb8a4S|WSVTKW8XsHglE&c74tWR3fp*CQ<`djh&lLU)qCCPhXd;upo5`ftwU+z@ zJE*_vEEz+8*eOR4NsNpkI}-OO5?*>?oenO!qtWO#X7~H7qbv*$b>S&27S-iKvG->@ zU)aVcq{QN~16Nv(bA4WGIg|#hU2(K+PnL1sRufXb^D3TEwADq#A^-+shMTms-3E01 z;b2I#cMN{R0bV>wb+M7V~=H_FL0SYw8;6Gx)y(e6Cy0B7;v$1@UP`f(<)2PYdjdJVPT z3RpO7ebzS;o7sigR>7#oEv&8hWk4t% z8Zgjm@*t#CB(6!1L>X7vT8hz;NMQ(Ga|eD0i8OQbzw~J2z{NiiWU5lA{R)drbW$jk zl@XMz-F>v2c)D)v5SrD&W23CPVrBN$(uE5}8oiK(ETG+Qx2s-1|QpMN^MG_zDBZMU&}xHbJM~ zYOHL&3gnz+oRWX{%aQ8~=CS)R{m@+}W@B#=GWk@%FdpQKvaq&h+YZ?srQ{LLfovas zf}cB(T)1ShE@JlDiFLYFhUvJnN-cLk^BJ=7%|lml6& z>dIHYqaG>D!tHnV20S_i^ndWtyTg`AOWOla*DShLr*E~8L)Y&);jeRMw5Nc6ncGS> z+b%mzU~}_VxuX2bHxZ&1v`7ibVe17{U!FR1w5kV$l4`4~(VXcfo+ei3nsX<gvDF(nE&2*i@&H&JR9`=+&h{#wV8f?e$fX) zk80zzA%t+Xl}l~gW1-=1qUL*+ggV-S?NEg*pN42s_}jK zCM(Nd-{9e!fsewmOWoXm!|}h?c@47*3sbFNX*S0y@RCX4q^_JsVnc>37h+BYgq}Ls z20B8X(X0zyqh5rD!sGnn!W-?btIZU?>-`-u-u zz+cMGiB*_qsPA7@03%=0+0YAoA;A{3G4*k`#B1Ka#J|{VM3%(*gdIA@(4TUF1YG$L z1?CpP5n zL*KOLXF5+D2r3iNn0Hqw;~Jn0e~`1PIN` znI@+rbC;mw!NvS0oVn^m6ha@lulWF>DY)$)*E?UR9DWlZ84)i3h!xy zn~+{`E#K6(*N7&7(&|mohb7~}^+`{};}+&l#R}%bR`MN+3)8zLOH>Tos=g>bv9wL? zJ!Nm!fQ~s=8qq2OMZcH@v?`O`2}_^RfeheA?v!lB1!e16W6sU+aMX*$^WSBq*Z-+P z@lE~tIgg@t^E}2lS8JE>mxVe{!FIw~h^x~n(3922;405k#U*w?_GqB(O@GTyb?(MD zUT!RE+EVmH#Y$pMTV_#jgs8~~-MU3UvC~*+>zCQ%t-|flyuRiv1fm}rY;)*wI?&Tt z6h=+}K$6qJv5sx5k?0h{e8*y!kTY?o|Ia?Ixn<5cEA;Pr$`W57he&Nh3R8uKnw+%7 z8xz-Dy}f>Du^N6#$)PX{jy5ZJ*9E;Ren`hg0 zqj87aX`BLho^HQ(ISR}TIEmPN0G|O9#_|oaK{L(FG(KY8p2=!#6%Idn+r^;Yml4$# zX*FBUOU8a{bOUIdSw0CAx3#MyRm9W&BumKodwOh2gz3zYbWQCrJIxfJu(_4H^|A2U zv$45L~Q_)D)FmyM(-0n&gi+;O{-vnqB1Ktmlj}eUn ze{0pit}5u3SyouqI&n>brHaMQO$zdCA^tv$y8A;Q2Nnu^K{H*EP)4`ohZ+H|n(%>PsakWcu;cQ=0 znvrzBqv+xx&zX{7;J27Spc-rOmexc|I&d`fpP$RLl7zooxRaT-d~jTvB?6Tb3x3EI zS+JZq`#qUH2s*hO^eZ9%g6>0ilb@xkX*uoU>Hn!P1 z2HN#E?#Oz_CD?=cs$_=jKRj8l3FJkp%M-HYC&?KF>SFNbR(0@7D+0cwlKmt{*&D0( zISbE>aS4|jw=e-Ha~Y(z+`uWI28%SI zhdio}jF`_eD}ii~nv4t6Fhet9f}e7lslYHAZj}20cM46h%6S2LvvgC`NlkP-T;ZK1 zHVx%tD&8(|iW}nh-=q+$BrDGA(+C?2I!+<|Bn9B+T6lf|r9cll7Fx*q2O;lv2<9*B zLop+=_=f9=B#df$tph0_yafkBOQk;pr$$YNjaEjGaS+8CNXhp{eM&8AY(8-EWjaB~ zFeQD};*mmgh4=f~O9(nvI=GPq`B(v?6`qS8sf}tk$Z_fL#lD?N;)dS7(}mMEBu-C--(GA1|nU?nEZ_^Q45~D3@~oh{ONfj=K4( z4!~BMpC3D?XKDmKbNArPt-$jwXNf;SRSDMYp=3< z{MSxV;$#Arv{x`k@8*?$1AnK9Klq4l;7aOfur|)dmi+o<1iMT^O*Okh{S{|=$>2e; zr%&TSbI0c~Hk*zgg5h)2%S?r~j^5VObEp}{4U#(O!PK-W{QBe87B?wDXsVw&@G;Em z2VK}m;FqwQ!?hG+C1cM{I^gpM(En%LNWn}VTyzgGYZweo~>p0Mt( zn}sk-(?@_6SFZ5XJ9sR6q?JD?WX~D zw~uFHeewBFeWiCPFB=)%zk3nmh0}bP$^ksqKHe3$d4=pEevcNQlRI$Nwp-gJYn4;7 zlCKAl9sfSYxrXu5I4z59zLXy4uP~`A1M|fk>y=@8&P{gNvT}NtZm~B9(T&FQTy6H2 zPsLrTbzziE^<{<~Z@bTw-scOS>Tg3bI%Dt2kJRGv_e%QCZOuxtt_q#LDSK=}$@8=x$%D6A2i7IYZcp9rjk(XZH>l;T)1#-! z1p+vMz6a-?T}jg-Wm`&K_tf}1-3P!b@oVeMw4Em><(-Ga?<8eB;buB=?ZL>$Dc5Xk z`Ps1(1vG ztd&2)r&2DBozs{^{l6|du}plY6~aaT`VDW5bF#ka%N_gEP}oaSvFY5auW=1BJ$4 z?rT$cAh>l#6Q1G2&^{$^mdUi@1@A6mc5%)OSG2A3_Bb-9?etn`N+LJO_0}WR&1;#! zb?#vZwfJ;GusViqK+H~e<5B?l+d*sbQ`)mzi&tHHi@9N=Mu%5Hf9tZ^u*$BvyIj{0 zthYsM=vnlbZ?93AT~Xn7Y%*KCbiTauxOzu4h8{BH%}VN;45~D zah9N$O31!d*lUqs3OqEmc`JO_ZC zA?L33a54wyOUO&tJeh!;(Z!15I!cy{jg7Vl?z7w#BK!f%H0#AU(PQ%^6oV-h4(SWl zCbx_=Yhe*c9o*UYUp^t^fH(tZakJvKPv+N zzC(IQZgtt(qMq?CyGmIi!w~#srr3D>k9^8eRZO(9({efRO+JwCXwL!^i?-u=xPN}} zU}({qGI{4RTsS=yd*{)&RFTv0S`qNP7iY<@Ea=X&mvbBQ(|;0IHLyaFcU}F(0M?Wz zVfDFOq@qJ^Cy_nZ!%B|)H+FH3zeh`X7n>7LbvHgu-}3|Mqk&KXd6ru)@Y9e%&liEY z&}^hF<;DOg-&vXFZ)4lmw6T}>>n>>%cP3Yupn)E1sgtz{rKs21HqlUY?sj5-N3-uX zI-C6_>Z@z$#6|3jS2fw6_2P;^ALTi-8IOni@yN{^A8b#j^fvz&;Uhl~>gIyoZmt*f zlLuidc%xVN^tZ-%Gx^B!9)s%RdLR2v|c`9I9C!7BO(*)~`Q{~+H6i)!4# zOfvJwX^FJ-;_{@L6_)vqgV|-4Vq8E&be%H~$Kw?3aQB*|XcOoZto3iu4(1z?Z6Mab zqMccWo+666y}d@`(&(!5VI~hpfsW!g`p0E@kq*qSwicJp%0KPQB-ivM0v?B*MS+Ux zPn)WQh|Y+3PaR0}CUYU*Z|~aZGmmWXm2(p(Y<~K6WAP^MO!feAq~CtDetz#-g5P;? ziY+y!kLvv?qbJpUXc_h`V^GCyPw(xqNo%Y|N93qXD@ioc_0P&p@dK_(%FW5=(a1LMofQ9apY6B?cF`3<^ODIKJO)uk+!R}8!Wzw&4eH5y>Oi`dwfo0w z2J17qFU*DE+qj=!#-^4Hyx4KiueN^{DqHf#nzaAznaHrh9~-00wZN!(dv*X~-|~rm zE0nCsU1YnlP~Mfv zYwbylc^T31Z=&~T-X`osI$&QAOzT8a|A@CX&1{qSl)w}4qcnbZ8HbuWWjR)^{+`5j zC1{$(BRY-odcC|{3 zBTmS%ibM}~r0^;X59I+fPs7br0T;<+BZoq|i5Yidve`8I$v%wjHp4Z}#DD7YyC?@T zb-v>9(j$#`L|seisw&*{kH6p=9c|e;SH0y=&b6)AP6{yOA&>6&HP9XB2v4@ z=&FK6RCK}7wqTh}0KrM;Zd*_o2LlvJ^klz6hUAPaoIY!8qC)bo{R=Zk`WGEr z{b|J5L%pP1 zV4~09Og-?A$wPyGDyOag%~Q+a=X>5Klh|Lb&urQc>r8|6!wKql|L$+HkNn1?ek6$v zZ~HxJBA8R3C!(w$_5^t|va~SusH&$kjpbp{4$*_TW=LvhzzOlOak;q-$BU&qN%wT&h0JX?+(!~gG*rOu&ebn|56#+x-h`dW)S11;>vEHtM zq*z+}k}Kgj(U;HwkzVMX^C+u|to2(FK}1p-cUCO}TC?gAn#9X^VW~%p+!+YhvpoPS zjg`?*rzee|xH5UE@aV3o{;%GtX zFl;$a;E*tqih9B-HN`TEov;KgcL@Xwosd(&{_HPUnsHAyWXvCkKf@4hQ~FNzS!yJQ zVR+}yDfb+r7u8 zMS|(&Y@73FwOk(M47@6hGxx)ZSL=Ev(%LVu1{D%ogdR(jrkz6q(KQ$BX@TG1d!1)I zI)5BHXJpPd^Uk`Ud$vh07a8Z#$C5sq5^GI=>-ynN1C!B0IsAReC7A~DV)V}prnxG}zj!jlDi9Qy61xn(S#9qMzq;V5*UbfySr zftVYl&!Ke7Swn$d{pheE+NBv7K^|5?=Df7p{C?enQ{DA2(~&;M+UWPX30tQ)dWi0T z3zxl^<)6Y+@Ahmr{wwH+xg(2n4Ebey^>*ZAlw>2cmw<1(_o3}AFB9l*;9P1;B{6&T z-7qLy4lN9QLToA8a`xkC`Fs1zlh`XCHq4cU3IZWcP>gbif1w3ZMBgZequg zC**vWPL|`I$QL35O$XpC(FgOf>V*4xq5~%NS-U+HLeuFZwf?V1o;rjFdV~5Q5>w2! zZB{jw@oyLWc%GTZ>bOf+R_i=MKJUbE%0{A*x!y;}2^nm6SzMwh7U#FmM>3FfJ5h|J z7`mq$ONfG|U;fCAL+OUd((utHkiwU>_(cwWZbJb#VLxOyNi~kx)9(uGFAzKk`b%)CcRnLi4wUN<-7>Uc=&=V*CJw;` z@S#pP!mTE9)}?z_Xu^j=%4>Xj)V6MIp^Xc~Hy0Er(r>=4SJ*eO$S@=w@f?C>@!)jQ>bZ zj@WM`nEI0j`~j;bNAxK%ty5atMhZlpWvSHoZPIcQouY__rP#{&j~>X0;AsCUqGojm z+XWCV#EQO^2`#_FTD$Tn<9&EwDx;0M-!LSgkNQynB|iM|j`Mt|XP9qh4tGTF5EJHO zcS6hevJ)z=U+yHiCCAjR_Z>qAYZFqv|LrlJK`3I* z{746JM|ne3c_K!C-phJBri03d4pOBanmf)09f>>(` z|9RD^MnB)n2MS^o2Ld}%2+E{acW@vBe5joZRAT*@gw3_=qkI5!9 z_lBIQN>=cBQcG%>m5;}glgKGJm@ZA2(Y|kCJcec<3HUI6q_x1D;_|jj6ouKWM(7Q% z*VDsL=;in>5KvG#@lt{86bRL?-G(DZ0WpbDiLGeSnlrM20BSqjQvK~L>ffn0e|zwN z%t&{N7l@vKw2s!+4n#EkI*k>qbDB07C0+nSg4eJp4 zk+?9JlsQeA(+*o6CA#@eKC;%b*7+VKCHoVF|FN?k(o6MXvoRgF38*_k`3;K6T>rFj z=CtA5k%@w)0mzFi=>MrqoHhV@Ze+$bbNy<-oy|0hT-wkzgm~gbHhfQ-cAC$$?L%`Drj$GA zR%yR^NN(8}EPXqZpH#xppRd6!qM9m+h57}K&y*gj?pPWcBZ5n;U#uV4Du*8lYSZiJ z9cU`eH7bOIDPhFpz<8k32iT(CNJRcJ1K1zgB*%}76dJr+N*Zh` zDE=$eQ-03BJJTyT^1lxfs`fZsNeLn8n5l;=)qu2*1gOrib8)m&ib6?pL!V+qV7}-r ze6D1-2 z{TyZoYGi6;?|K{X6jTtiOA73mSq}5JJK36uMb0^3BdZEymPf7d`nOXl=ovX)Ps8_Hx8q|albgV5sbnO2Vih<`mbp(Vh zRGCx$(_aZ0>-6)>KXt_Srfcpds=|pfxKbwK|ER5H4kJ^M-JKa~g0Qx=9hGz)Hn+{j zbj{g>V@bU(6Q3pw_-|G>U=al~a|SzX@DXh-aVB(EnL!gW@p1fIU+?iNbp)p5c^aO> zoWnZKfa+Acna%H4*xW_p#t4`CEtmOe3@bkf2qb9uJ(xWU5+#9=$o1zin{-`D`7SnW zg5ssPeVy_Sk$QSHBsC=F;>H^nbNC=t2M<+oX%A1vKCYa?6~ zJWC;Bq1**@Ao;GO4O|#jSc)g#oRe5mmr4iZkQDTIAV-XO1(AvaAfLQAAM!{k#Sj4+ zX>j-pr+gMcak<1<5u{W@uj#f7^te%9bb+@{7jv{thz*p3nCkt>^2G!yBpt5RH*vl; zRJs>b`a(RQ9dG{qTu{An+K%0 zDg_X=dT^jLBw2u>&%9L+ZwM+8K}OA)@6=aD@36Q z$5DOvi@_VghypJBo`n>%1%aE}Bp9!UjWbXz;(6%WwO9RgopN*$iqmdy)>2iHKr$0v zrKAT)51m+MxqF6pM$Xtol=cmuD8Z=?Dvhy3&?Z0fy;nv^fV^fc3~ce>?r{?djCjn+ z>7@j!XT~tLJ5gX?kzuc8T_rehVP`@-dzHbGFNiVQ3F7wYBznZA>4ZhXULxm~>N}Qu zA;F{y!=%1%1aU%E@+>Zq1uHT@$xlEIh16}F;xa)DLA7jr!vgwVrEr;@K{9xCDJ2WZ zH7rdpkLRX5tK;6-tp*J)s+p;2cCz*|$d3XQHii|l+I~22vFT#Kkp!joEJ_;L39|L! zd;FWX6Xy39K-b@aJget`QH>Y4ss8M2ntzoAz7qzYnSFAEcdkIO?Gm90Z+}!xaI6RR zuuyKLL3I8`go!4yPFYr=$4S3r54^sPZJ{{F)6 z-4vO$8#!FqUa&8hI)w=L+x({0drcY0R{o9}EkqgPu~uYXedA^f6U97qHYITEOD-|k zTq9*&%-C;apZpG7AUXw0RD7Fp0S&ypqr`b@#BMo(Dm41#Ps`fzH-J)6wZ_}!tcC?C z;_g}F#a)6II=URK&}}h#T)gmWVF(RllNfZDI2;;;vM$dp_U)o!u3JUkj3Jit*-vJl zaU3B{MLXz#D;>SuY1WU7gt_rXtZ#?qTuHIt!v2v5cnsp3g#=6^1y)mbG;ka5)dGWu z7GZ1ze0>B*()r`e$>9dPbUcip9XUG;onrT~_md zQ4N1dodJA5z+0?_M22en)AX)z-9+DJQ zo6ojpwA5uWuzU14_U12h*I##@gW?mfaonOA1y>S6pci!ZV)}xV+#u~Bt%`%1pq|ck zT|W;*e+I1?mf3>v>LEVKR-~PT9Bb{^nTC*LXK*)d%kZkjWW!q!u+wb8V{D-Tg+-wQ zTK2rdoac8u1!W(lnxOfrLlizw(100cvL2e;K!0!1dnFzH*vQDpS7tzDr{UzW&~Jm0 z7xTo=-wy0hzoTS&y&E&3G>40{tYo3;D1v_>?4Sfv+}P~=m5mccAo>z! zA}52hV8k;!6Co6L3j}0N#dyeCQUlL|-kd;i$Sq|o*0hqv)ix&79{x7` z1%eKe#~t9PrTAIhG?KG2JU9eUaES zHd$8TKWZ@+gtrVRGcRO}cuqT-g6ie+L#KzPjqxqwOft zsvF2w1QyAeM@e?1>S;_}HPM$h-LL_%QxAPNT;i)DQ$4~_8dc@hVoeu_`{5F+2`R&- ze#y#R6;s!#Eg&=ha~yI*Z~mwr6}lNGn9BT!(?f!&G?+o5J?M2&BAk;62DCBy%xjq8kR zD%-+0n1B)~N+5s{As}5sv48|5#2`pXf)FW!QWOM&BB3OdfWlCM5Qrt9L_s1XfFc?k z1fF7GXo5&{s45)>93y4W5$A<@y4LvKyWfv{&c5H?`&(z-ALrb=*UoaR@#^;Wgf(ty z-12LE$!vYebrHtZ(RKlXJSb2p)R$~Iq*h3QBDR-~ISEM$JLN_oKeOr5uChdj@e zxS%WLe^itGv3rT?s?hp@&MqyITf7r-P{s`THR$k&iL5=*!c>9mj8)3;F2P*C>0+T5 zj%?@NthzZl&ay|lQyomjCzk1vm%Ysuj)@4?QXs~^Yg5D4=Q($EPk4vA|4>e@h1qIiqcQg9FF7m%Eu1 zrFEW;Z%jjExTfQl7WLoDL(^z5)?kwVg&VQd|I^^v;$Qb*fWjvpq1cYgzy zbTKcq-l8wdVF>qi*!WQ1t1oY7a1J+mbSGKQIm?;Oy<6b%@;I*E+}pc8XFJE}%hB6z zO_^RFwH~@5tB_2b&??NpgU-(fDNQl*ue>pIm-);ub!;o9r7gUQ^WQq(>77Clj1o@s zb^`-93;HhF2S`PjZnAa1QN+LhX4L*^>qyP3(ct@A5A~6bMV%(@{i1#c*pWDt9|A`% zl6T1*YSn$Lf_q$-o0ywNe0HE^jLwL&ztj~;FKD}!s+j(e(j=^}0xzz=1J_AA{ZzSd zYfmQ9SmPT6FgAa2SAU~p!S3nF^v%5B-dY2ZyK%gE+9;A1 zk`qZqef;!~_6C+N2I3RTJS4O{=h4MS63zzKzJ7=Va%)2=P9qoTLz;}t3Egv;jN)MN zrWC_yAGNatJgJ6KDiD>a{da=LH5)ZQk#)H!bovxSp^!)$IbU zr^(Hm&ec|a*^u1SkTFAAU01}dWP4`K*zun@yN7fn@oR)Fu8KBc0=GT(?)L5n%Gx6m zO>dn39KEE=mHeQeQKJz*G zo_;~Bs+mZaQ|kf4DaiFG7+UcJLw&=+E#TX99jC#x)Vs|0DKVI@fB z^u2RHSzb*%;vO)vjT60t(^nmNgJu?K34F>X1E;XDAr|PftDXZWBFzEH`}sih@$vU@ z4sn~X(>i`${0Ig9~Lf?%~wtyzyzERdo?ZXSn? zuC09jaB0Cs>kPJR9V3C-U@CVSuRL z^)0iv-HMjHg;-xJ@d-@E%Z@9I(~ntxXmfATfgk8#a!$=Tm|Q9w>%$n?WWiG!p>w>> z`Z9;)*u0jGG#h}J_PIx4^KdJ_7t{Ts?X>a*XUg|^ zg|ak8k`1?-W3y|UO~k(jrZsCq-mx`ZV+7qDRLA<8GTu8;VV$v}k4GBe310j1)ILdk zvNb#DA^-lD+3~FSh%{6MU&+=go){xwqH0o62<&Gb}|1bmTZ2>c+;DIij(>?v$UJsgFh)ek#xN2;a1>ZV<~5QV3C70 zye9!#j1Y2+ipzvMdU|_qXlZVTs~N_N)|n&QB-!=s6{^=}HpGI`V6vD!Hd#ctU`Y?w z9?~Q{IMM$wFOUdU1S@(FO!{rOA&=GqDzU&d)g8|drrhrFCp?f$n{z;Rn$a*2d!vi( z*2&WQu3~U7905Z}hA8rX^;wDTx3=l=V3Q4@7;eLD*YIgVId#wT ztGI0>c~X)e&crfj3^E1)2(&!iBVrrL3u=&kSaLq9%s0)@iha7Ax_`I;TYAd1>g}|m z{{Z=geoXF*Y~MSE?YAUJ{~V8FKqQ=lAHg!kSbTTHR4y)8D%6Y)L>iI2!U zO|`B6aQNE{(r3Lr0cW{rZvOF6!U=?gzb5OvCgOkWAhy^=XCv$esY{bJ^53M5bYLwO z*+*A>qvO>^iRSkU@qO_39j(PWs-^xd!{*JK#ci@!?|cxTXx3LB_`wa|TQ8h*E=dAF z_-^sHnIC-T#Fj`3HSBbxQ7k#^`%-)hg7-y$N?2jOJ2qry_#!MP_K4Z1DU`F}LH~z; z!bQ;nRA~kR07EbUDE^RVi1pT23%jA^pGyz@fkQ9_fPi!1l+)pq|A>KzB?Ew*7+sqH JfakR_`#1ZaR676w delta 19583 zcmYhhb97(b6E7U6Ntz~U)VQ(P*tTu!8#Z=MY};;Zn~iPTw)OV;-Sw_}*ZlFBIWuR@ zK5NgK*_g-<@WD>-ukuomP-tLaU%}wK%foaBC3VqR+msS=5 z0|Sd~(E+|1BD{ft5jIE&3n;s;oa+QT(zI4qa z98*w*nxXy7$C-1>I!Rww=Z@cCXcMai>(+Nn?tis;6-kvsH zvBKA8LbD-yugV07^xweWxz?JBN~U-JqL`B5`dFCNjq(4*84Z1+88}pzf^yDNlJVa%W9 zP=`#U_$mDGtwAtMVDvkcB^m>Y`t7vwt|;b(r-+`ss={5grgF|%j+EBcl8@(*`S%ma z@Pa|ZK2{h?)kGsNq_nKmUEx!{zltKcJCN`IDA2yAdMIBoNfD8JTzTmVRW=ClodGfC z@~7ufzY^N7jTuB281!jyETg$MNs!Tw@?6f~qBPAuwhj67IvVz=oJ9=QyFyMwY;5(u z%7+?B4Y7BG$G3mxh#oFk`-`NJO%x+2)4cho-LPuw_pud>fT`5oRdTuiSef#LUW~RQ z>8-vbMB+w-FCHWR#)AX@h|&sdK)Q<<#kZ8!$*zq3UbujB6w%1G*ZOASCB>6B_32w) zgkts*B>yFdr;o66oy%pOb0>SiqYCi_%Cx;oAa$f`JlORf=SM=*W7g$m;wMm&(^RW- z&DO)8W6d{UOSw$0Ch1nm?L507~MaiO`ALd$k8(33|a#?A0;uhFu6N>Gg4DFwlcHPUY zZ;D;C(}P;ah4mwpAg4lr;9NnlmxhH{GNTS|sDas3E`-@c4jv_@Z6X-hR#qF`s= z_#`BR5D6?07yBcxFd_jg()IZCT&vpsl@FM%Nh4qkI$4}b0Mj~D65UtkUsgL&45DG( za4*_BR*m$NJXWp=gZ?_5fTfbStc7a2dzC=fEg#~0BWT>qe;o4T1a2bj)MeS!NOs&_SWFv*hm1*C)-gNbuSgM(2!jHI)*q=Ga^@}ZyVzj103vhL3hBlu*6ub z&Fwe!JC`3~W~8aT)KMicBznC(QWk_`ZlN)4lQmZQd1o%TDZ2RU8!g5jM;e|M%Z*5c zs8NH?{wAJ3p(qH8=Ed0|V9k}~gy>%m5i-@LK{K+)Z3|$w)}5wT;A|`iF)y_Jfd&2T z$^0v_8b-k?+TUf;&d#5N7xLAu?r@NNshNzmDT6_hMtKa9Hk7@<5K()`we+k_f>7!V zi9E&4Uv(Y^heEhwRI-&PE%OTww1VR}zZ}fcQv9Yu=d_uvTLGDTx?bcYhB3uVhPBi} zqOavz$(Yl^zb=SI{Jo2*!o6u~RSGyV@Rrh(!;1g~meOux2!X%Vb}*5OFxhH)OEf!vtzJLaTgT8SwQ6s^>PA@T(DPu$ z&ybXz!F-ccJ2W7V)V%&xc^1Is@N0myRJ|4*mh|)cz}vTc)^e?}5Jt$4dx!xfl^7`3 zcyJxRR_XyE{C~4Y+4n5s@?(=Ph;o-$@o_U8zXe-RoVq9($dN^07cJ>A$B`I?)lc+)$psK2|o7 zp(!vtYk8LNEH)PfH9aUP03EXMY7xb}W)j#dZ2AeqTr^};LzrC4lmTz~v%Ss`!-1mc zXY5EJ^hyytke;M$_ac}a5VDt+|$ZgGncn4>%c+wr7(); z8}jE?dCcm}p3U8DkCQHVz)0FXz-Ic(mnpd1OF*e1E`EcP>KPdP4g zmehn8NxZ~P(As_pvh$kxRASf|tt!2h**={OK8|8|(zysv0wkWOp?z8(&GgK^K$d71 z$0lI+aY=dcLy_?*q9^erz;12anKQ~;nMsopsJ6LsNb5DNRrW{9b<6f}_Fwc>R^wJJ zaicaDfy>DWCO`e7D4plDg{FirI?8~a3a5f?B7DP`FI+A1O)@55QP6V!MUG)9itwwg z-drR@*i5^!UE`*S2D!Ip6Owrv<)Uv0BHs+`k!JxJUYW-OaS18a%7yz(E6q5(ZcBt2 zz;`H5L0EOWSE!h=uE`+CHWjFF1EDgH!d&WCK}p_unR&?lb)mv=-EWaA=#D%8S%Gt= zASO`tL)__?y3ypzq`4$?(S*3?me*}iPfy^Anq#}qf`Wo8Bxx14(Lv&rYOe{ZHh(W% zpsxsI$>|y^dyd>x&1?w#h)JWoj=W_Q;G5+YD64qH_0?(Mi*l1WuOUhJ4}E`abHjdf zL&r3}5*Qh!=TPn(+%SWExcXh{fCd+4@b+*gt5znD(gXfse0wW5V@++e9bf{O16b5` z;LsAM7$jk88VwQPHLasdZMbloPh(LW6HqRPqFmCCH2s{2a zy`h4_G{sY~z_r>pab1)J%Tni!Wm;3N(nQRoSCyqf#rSyF@9fQHr>%65`-;h+uBoWy z{Nl`q!oOmI^yaF@G`KnXsIWXQIE87HvJzhMmxbh}jPN4%bga#nuPBdzY`#i{_%}S~ zdhpV#f3M0-fseP7w8=3;uax~gyP;4lMO}&z0|OwMvkGDGe=NU8Gb`YoDJ0>u&5?wJ zJ6|TL(5cNbx575aY(Fmiy_ESn15=!@>O0N))>CNf`BKJNp~N$6O*L3^Dl~I0%xtn+ zBtFFIYJ|FPzfwqW$&U&&{1GEmQ8;(|Rfxzw^)xqWH(y|_SBM#@DOuz`&wWt7K315g zNKN5ij?@qow2O@>{i>N26J%FLOa;TKXCI zI>8LG^Gn4Nk+4y3;IKRgq46F}Aa&@5`ipBkouoY_g?(Ngn-l`6u!!NmwaBz-Li(wT zlrQkia!IU116c!E67$06UhaX#q>m$ zP1x0`C|v&h9F#H4B9m81QIAC&kpZy+F2O1_F|B&v-jrD`P`kM(*16!B?(TIUevQ}8 zmLg~yQs=5o^_64uK;6AwE5Rf{xo;R0crA^?j`PKtentb!s=Hjj)E4@uOW)e2a23OF zyBJZlsU*M!NJS*|qDmd&M;4{l-a}1xUk3W^wTC@1)AD8l7_$@0vGu{_sg6>Ea^~NL z(J8}4B_Oe#7m)`f!f7(*KXbo_$ZD5MrsgY-pWO~Rwy0U!SpLBAM1WDZiQngy0lPY!BSIMwjIN8+zkbF;TFOo?a&8i5hy??^o^aGar5V-iPt4f?D}9xOD6#+x zkX7rXI2YF+R#QE%hn6E8v5kev-BWMthRMZ&3u%P|h|k4Or3rlvPo*MY7t4j{su^iK znEPqfT(^3D)7q=zla6_M-RGf#`-i9(S1`5C=qzP%_`ioL8S5gOV68>_udg;>?PK4A zd;x6kz0&*omAoeB@j3BxvnF#kaLr}4#ih2HwFPO)7e$C_T{15@W*i>$FM-DlPpTQq ztrnhv)S77f0+Pjkl8UwUo%i;7X$}FXtZ6K*Q*Vkf&^wLp{J*gCMBm-N=GOkH9COU6 z4=Easu(SW6dm89~u|ZQy9=AIkUciC2;RqB`W{Z+icgRMWhnXv2luX1o=dqyr)ef7~ zN}KJ1@P>87R`3xx4T&SQjkM0&KjrdU&Pi#N9ZU-SI@L0N>7u*gqV#)U+3jU9c}uog z7I_W%|BI~X1DeRJUfVZ>u<0bPzt11;!!6I4kK#r4r>nE}A<#c{ zxzr*NoKNDQrAJUTIrDgGt_r)7JrhO;i5I2e&Gce=Q7?=x+@eR~>8&U4ivIC z>@Yp&qu*eJLbhslc-<_Am`_niiQ&bI;c`7RRXSCS*cx zy(f9Aq{@0J=in4N9xnjiIwe)23>g1ijapdayer7A@)-ZFO8{}=8pjm&RSIT3>V^DO ztCoXg#6PT9VX4F2L@ScGJDGezNz?H#8 z8PsBb7^nbw6Ql{=eM3=>*QCt{G{(_vmB?_7dcsT_I@!j_+6<||wU}bik6(tvP#V!UCT1N6$#Oq3(;$UQ1MaBfQMJ_VQ@*I#W4-G zk^8~iAy%iH8=Cws4w{4=!qgbcS&W;k(w@Z?k7*hcy*I;y;Tu6%r$|Ma;<4r)4Mfv2 z`RDn;+#D`l6H{VKSt%J0EAEp{nFHdFTy;qM#Ypi>k=d74X0^eV3L>;Wa%*G}2=yz6 zN9F>Qb2v%w;=3c9z$he&PLd5m)|a*rP2r5Ap(q~yTV3YCf0Y`6Y6g!rrsJxRUDKYn zmOdj&XjpC1VOdTLb=f@uHh5c`8)oG;;FTg@p?pbpSm1OclngYkKvB-wSILF&E@?0) zfMfnA5yKkfa(;o8A7n{yVt&ukf;( zh0ukTe|4+o59V&oMEGt7eRoB*Lw;qgiObH=xqG%8EQm0k_EWmHdYExWM2WWg)as=q zTr2-P*yod8Y(V_`P!t9j0p6roB*xko-mm}5lbC65B2d_dBDD&jkT1cOx4?t+IZCgtVDXFY5&8J~}^`vC9avnG{7=?$>uk}4@lkkWX<`oq*=@^J(ED+X{ zx#i}Iodg^w(OgXjoulwGV`7xQ($3Un_Nb*u6HJTymIS2gXf-1}WGoHsm~ki&R>18P zfHjxtYq$H!!G*n7B^L8}w7v&(VFxWEfT>`((!O%v%^xVBHc-G#{tF$@y8Jxx-Wx|DI4%&l%wMh9WYof;qH#1{)X#smdfG@Lui0;lsIg>X<= zDjD+|nWoa^Zk(^~NT@lX8Pxp+BQOT`=uE3eKd#GID!v{S=?L|ogHi>6Z=dq zo$bEnCH_Sv9F}l}JYy|^c5EK}1!Jw#>iHwnIT;rFbVsD1VLcFfl4?|69^4I&^5>i| z+WU!YxZVRhC|{4^vCs|Q8h|n3SaB1IjD>HN2i5yxO7Ysx#a1F3XUvktZ(X)24EEXZ znt$Xn7xkgsJAA})*K98co4KC0YM?ejNrmY|Xz>WWQzB%QPCo~{#Cc(J zUZ5UXi|E#Z+?L;JyJfb*a)bNEN?Rv^-}|QSQf#wEZd1z|7#4V$No)jtWuuDy6DA zN^DsD`xrOD>q}lH*%CLoy!snhfnT9IzmAd-u{4=Kz$PLH9TXNc={CIVKbJN&F}VAs z-7@T3Ydjg~_zl7cvp$?b`7=a7tVZ9GbGx>ix_aJ;QHDMdcdJ%;m`Z}prq~~waY|Z! zTgLiGjXO}ktVw6qv`!=h!OBygW=i&Fs?_p++!9|z3PTf|kZ+-b?Z4waJ$>c|BlTFJ z{w!7$z~~DWKFq$r?Ps9rhZM+Ea?QK3){21V_YchPK?#LnI4=79V(xr$q_C7}No=&b zOQT}L>8dx0%+sIL=g47-Sk|95AxuRokse^?qedHzY##Sn6T+$HFL{xZ)5p|ZyopFs z^NZ6~ikwzLHs{XvGdBvH*u}0B=fZVlYfI77K&|y5E6V#oqR3gxo9p>Vf!DrYRK&Oa z3TCY!7cr01S;G4Yt){}(c_dNvzbM>n98-gxln}!EO3CjFH+oZZBUfaC@|+aJ60@=n zQ$n-gH)2NoDXR-JWD`mznosep+rL-$iX7Y+u8$Mri+&fZ%Q+XhX}`9d75sV(HDm4% z2MQbSagZ1|Fbm)exrQPeJguLDxm~B;96%HLqc2u-&WjVX80?J|dzuXoqW*$d(}uga zbTlrz5gmReuhb*|b_%F?mszG)b+cG|dqy@#e+P*CO2|=Ht%Z>H<=ac~b1Vi|WkS~u zZw6`}RtSgA2ixQ_>%KceyxCNlZm4ZK1Bf{`nU;?d_)rSpe$Pe~T6I>wB~O|nmDe_a zr$F*^9?CD=+N>wub2O#z_jHoKoz$xeZ01E|k8*h!J=2?)vc|3{w}`RcWC^8Oja4{; z#+IZ(O`sL5wR(4welE#qLfh#A)kn3&Pd`&O&dR+amVA($-AXR{SI-t2B)1<9z-k>9 z$Vmr^ExqyA#?lW3fQCSC6-3~CD{zZcg!Q4ACP2l@r$vgbdXCZ+xaUA={Tyi)v^ZWh zK^k55UiS^&#_mUnCwnqbp+!r@sVm1wi8bAFc8EJ-Me%YHqIv3?zi_&JrdkyG7+#dF zJf`a{(W&lU0gwIDU^2Jcd1|c|xHujBDG^+l@4zOSzEcN3BNJoNDRN%p;O1@l@BheF zG=rwkwq;L2;zT)1#4_>;aYfAw=TspWOkCgODyK*OoOV%!`tBoD&Ny3C&DJZ1=4xY5 zVUvb#D9c%}(^aF_u(UK=E5om1aAI;#=ebt?t(ZK})h%9>A$R}Zb|1(#eU<`Yz+Lqx z{UJdbYLZnvF-bhX5ydpm+2j-mTPZkEU1wg-97!(RtJv?#8GaqPN2V(Np5;IhS``)L z5rRzJn&0%C-ha-Kuq`61Lf5=+dcJQWOQEXEmVXVIiM&G@yu-}}{o6`)<(BGv(CWIq zrom=yU?-oOU6dA)78&SZ6u$|((QBQz1bmDqoep1x=ef+a@m^P@C7vp7N-! zR)22hVLjg9Bn9v5;*bb9ZMfd(`#D-n<~I9hhAC37g^_GG;z}kFVVV}yX_6S&YDR_c zCp!GJrTtVHDw_sfhu5OLmQXnUHvW?w`+F6MrA4N7Hi{rVFB?dZ0yWLwH0%@HYzf@T z6=F^IyuH1}I%s%lvD^g}QVm7{GZY%5&o~4ruAxf8muZX&bAOzIKN0T;4ZI`zls|8T zRt5rn|^nXeO6Ymq$A{+vw7xKevSrk(E95w&!sIZceM~cQk zs_4Rc_>%dW;{q?v+r`PzZq+fa!^f1BZI7N|Figa$IFCa9r$uSlat=`uBl3FOC8O`U!Fr|$$M?He#qRUQ*i@yH~ z36m|~5n*OsfIhL<)ae@}{UYRAYo+VHUASXCXnwLIy9#huy>g;?frTUp9S5}XlVd{7 z&2nfP#4%z07@z%$xo_RxqbQUkckZ9_K6ibc!W+ zi0kH?;`z?386VA2ylLFf3Tk?)psrHA#=J2FH@kn~`A_%4ya3fa6{lrM#FZ(XJ0Bh* zJpUstoEd;<+?|H0EU?0^$D1X9(JRHU--slF&U)w@IwkGew#0Zih&7Ul{K>$vYK2bo zR~4A3k0KSc#LJC-kyc4EH{>5>nr>)_S^dQvp)7L+_vMAHK8Zg_pdbqOhQCfxKdEx@BeM4 zh({(NivLNB22mFEKekNkEBya$wTQPNX8uoOLrfGuK>YpxX8~>a|JMkag!Mm-I0^ed zsPiMS1OE^2Nn2q4!)h9y|H+rM_YnWd2Mmt?$?@7u)PSs$TI%;t5fjc1YCGIVxwA}A z3zx@3zk~n@iJf#Tc3jwwcIHYIgPOxU+dGWXyqecxo!%bzFu3?LJ>FoBG+04(YpY>8 zL`{-7*lAyHZ!a70TrEB25r=7)#Oq;*I7S{)V1Uto{I(pQJ*kV;6W`_e%GWt;TE|Wz zmrtWj4@hWY8zd#&k>|M-_0PV{n#nD=y)gHQXmiV4$DzrMUV$2kj^}mcY?Hk;hfAx_ z_Ce46f@NbhD+Q|p4Sk}^nrQKgaG z33vfXCX1!DI42XjC6?)hT;-pgD(<)aJL%kX65eI5PyIWDvc0F|S+snQQ|26&;!;2M zcr0%gGedYncCv8J4BoGuwuxGsPP#JNvjPxm|FQ+{1|#6uX(q6DxG`~fz&&~^*`~y+ zBqc8*nGWzh%`}7flNf(a*o8PFrev+!qlXWG4J@s$HT;3T z(y8<7yKpx3gP6pYi?}KOHmQ=-`wSsSgdmFq*v1W%<#h&Ou1P- zox&PrP1tD6x8h4Xe6phod7}Xg0mK0>sf?g=bZ@>y)Z6ixDiUGU)_a^3idd**n&X(Kz3Q%~t$Jc472x zcs{d<9-De)Lqd0;fWPkSn3?=(E#>>l9Vk%xP9<`6C!O6;b)f+^t4muIc-d4ulxkhB zb#yrEDbBTtVqRbKU6p20%d(j0wk%91mtq^mLmCSjd9F>U8{GAsmu`x!hc%0YmF=5A z7PqvU_-X#6I5^{2m*%WIny|1X8kwC=I?lAT(2c{UESm*lfRzM9%Y z5|wNmv?%dB?9zJgb&^s>L8l7WxpY!j5!oN~_jpa+6s3Z4IMV*bOeOe{j@5=Q#dNxV z9Qz@RH@8?FS<(AdhBi&)OL@FS|1yR6Fo`axA74|K9yrI|gGAsp9Np=!Bmb3wraYdm zn9d$5m?73bj#|N2{;`fxo;?It7)?=#uDz~zY`Mn0#noi9x^EVyYFW5iq{e4VOd?^p zM(1#U7rf@Q0&(I9HFpeOJc}w{M4vMe>%$2N?i2+*H@r}~Ql%^`S1asDDkZG<56Bql zC51782H`seDPi(|peQBG)*#aEr4`bHIxS<3vOb6LAMlJ|Oy^tuUqG437v@$H6J~P? z@F@wgISDx`jEb?L+7p30eihv4j2WOeY*B9@WN5M_`4RwsV3 z_}*ldIT0RDqe*@$Sh|;u+W1v9?pGYf9EPmq%fR8jVCgs8+GdK{JMzXe5|yjleP%L{ zTMB9FTIU;gCiz}fothi2WK+yd*SSGsc{0Lg8Ay*_W0j76ZzRI3&Pia8?=0U$n+F6P zHw$&>K-9!S@aGcP<(4|7-4ZLOTgmSW?}Ng$hn>ksBGIm!c=M9v(^Pxctc0oBVW!)A zC|9$S^(GS0HgkyioYLE8r&;9S7+ts(k=&EYt_xz**b-;@s;K&qIioD6ZrJYubbRjK8wX_Uv(o}pT5*4FxE_o}dQ%pz@Ou6@ z_R##5=zQkR=R1-YqcIKN1MDv+-HLd(-vS`w_Q*VRR#m=?DOYM=m$X1r@Lwd3SyUaC- z%GtyIg4lMs#T89PS3BRM&mYs+vtM|SZo>n<{dLP|S5IcoOR`ne-P7>v%v{EiGc%gWCR{cqb{iiC0FGt^#1xqt5_vSN1-g*}36Xk&1#uRCcM;TB;n@ zdC)B->_or9npJ}8SUM)Cis5TDj}Gf;=Hoi6H8-hBJ*Unp<}pujGgqNUdxwU@;z&cY zcxpcD3zsp}jj6-N5e0U@O?Xg7HY5YY^hSfEVGSB_F&sxw>4NC(LdmUyyTLHakN}RJ z{cB)yv&&PokeD0ZbYlsTh^@M}hReB{FD*3|E5d70ZGFmmka>C-ho-@wtLLY=$Pvx( z@8`V<^2w|eNQ~Dj4xW>pMT=^`ibhT~;j%jEP2t1a?Hhorg31!^n7Hvc^(dHd{&7&X z!AY3H@*533zisen;Rvs0rNk!=m-({x9V9RbBH7_+x#*7L6|bId%;}?*fK7km){UhY zPzSgd9m(y)#lZaZEei+4!~qZnij;KUzYB&0FYA z(9;cryLWsm%XYkxp*-zdOc)=rgcS~SR67%-9ycW|nW7Q23oGsL3n85oNl`HFeUPy! zU5}?2JszBgif^oOm&g%jH$auu9=N1jHE9SNf0F6W&-CQ}Jmg~vnAFf)MZQx}(97vS zF0y-KB>fcZqWQ)b2Z)sgWME$RJOF0z6dE6oCzn;zpRatM5~&Zw&nafxVoBr}iRm<- zt~JB**EQO8t>32H+@3c%QfI3^Cjsq`N3ss}JU{rq3X*Ny8hHS@NT{mDcX|okMRCCF zvU3KxNP0`8cBAvT3g_mMm|!94q{`*%;pX5OQ3&?a6 z&KbQJ6Sy5)LR1S&{eM$%OuPf0v%uoyuRD%LQCXHo8PVQ3h9)X2m9OFPD^Sbx>EauK zvwPH)J~6=DM^5f=n0W5o1zf5)&fSc;<9wxup!O{2JPW)oQ& zd#u}160@pH5_q2_6<_oE?Cv*Rv@uz~_`UcmO0VK=l*89)8ToaD3&kp>PqNBJmw_6& zet$_F*A#fAUpXd5kv2R{G;#t8V9A;dAXaPIdxl`hj*wB=F&MxZ0N*I-ZYEc|dYREP zUi2mJ$C4cM^afq*&SR~C)V0w4#NYMdzfq_|X$~yV7h$1s5HiF_NT@B4 zEdMoO86yhW5kMht6;wuoeYg^A`=;YN4g}Z4xE1oPn4oNf>jW0Rm=tm1)NF2-MZL*R znJr_KdpEnQ;3BZenl6ReX@6;BU|5+wxuSB3(xsR%)$!> zCtzm zcB`)acR6gVTvL&Gc5Eb?(81)AU-Q#}+!*R^;61d`VLosH&}j6T;v79$IJ;+%>dQzF z9yX1o-Yz|#bWqmT$Pwy$kWX3P%Qgg<)f7W(+<3DOjiaM zmj?+Q8Xejd=a$NAht_5-@MW;GPtTd!YKNKKjy0?a!wyuL`I&q_tGPNz^q!z_(t`X1i;F}P`9@;6&A`UZwD z4E}Yj&7+tuA#u(ujO2Hx5`8hT!`HU*mAO21Q{^H>nt}dPKVb*D3cSv~Pr4KL5bF-uGKENIik? zR8?X%P2wrC?B20ftf~lfK`fKouAGz)__AJ=|LES{EJhadn6oF>Ok8W@|>l-wG4X1)h zKM^&eQs#9T(`k$C93ZO5Ln&yRYDWaNjhXU2z9cq~1DPThUPN&{eL%Y6SIcqp`#4LdF~b zTt-A*3Hs=G*M{yhHdSZ?-v)|2qtejDMp%X{c9Tw8{VpWgEePk40$9^=}!2^IJiH&!Yr7oG0We%%AAN9j?&>_d6r ziDsM3l8(jdzC?GFSe#n55JR7e8P%AjG}9G1IeWxRbpF}Xl@X4j?Goc=Xng$(KsIuz z_CqenVhPS&@w2Tn8kVapns1%W$718>_`ODfKL*4$$L@c}jq31mtpsiBV`yZ_(5yBU zdT+7fn28tzSF5RXY$v-mQobmU3SgJG9or=%VHEoMqmOwh`Mex3(q(Etx2Q)A4O0d5 z_`5H3(cmC`;}STsNKa`dE0fHD2W&WR4rL*zF5CyaFBjJc>c2LB4R*@)cH0%r{`{Rm zVK0=;e)cw`P}eMq@=hmTZ6NZSOh$w}J?wfp9R3p7IPG=6?s4wrv@E{-NTzk@YKWk9;`=G*P8`bF-Kwjs2sAD!Wc2>!Yx$L-ovTsNR3U?G)jKW=sZ za@#Kx=8$Y*gXAJ+g>mKW(?2y*J-ZiPNER^#FwAH%S7V~yUa-a4cNzLZ};o%+7)Sq zgmfkr;?7y}r#SEc*Q;D_rN~h)k}t2Yw(&9aF?<(fH#~=h*hFBLl{%S&PaI3tn21_$mVozH-*CseVL*_UGqF{07Ut5nkSa| zX&x2W0wZ>oYzay)(7GiJ<4$FqakuPaktUr zR;=w(?J6EuKzBazmWm4+zRvO$g+`8*8(1`0wB&YdH1bIv02aOOCx*0zvZWy9TK}Zj zqkayv5#l?jb8~c$ivJ!2JIalXPl}L0`#%#x?w7YLF#_&r9e*(b2zqe*`v9>CgEFKn zF&*cgr2~*>O180mem0s!gL5oAm*rkQcWeeY0^d!$IVvFP=r@o7b84 zRt+9wH9(5aL~8))N{_@!1Kz~>DaqeXpKz%kU>X>g6NZ}KakbYWavBx!Ai%)E?!Wr5 zn^~WCS`&ipMLL1!^c8ZyEGcL-cK6*Tg?h-DOTx;-yx>l)eciXxUsjK66{cXq4{4o4vUxr+jx@+=$jCF*V)GeV%AW2Ty;*R6``>rkT zKra3H&?Ku8^!!ZxOpM|KZF0p_@Zt-MBz0iJV8ivowLD?KCJ0rEFSUH**34-_t})$^ zA28uJ5iGW1-r0x~4~Ix}iWt#9|6VLDN3}{Umda|G9GtXfRXqcZPnQm_Y*7A_Ob<#@ zqg?_`LjwILG|Ka1Ex7O=qzFht!2>n+@+9tIKGv(S*wOdjDj(wBhr&8TF(LZN)Wu2R zx1>{eA@`L8xC}@_iFNbq)P)eXmsf^j95C6GKzH?fS^4MHT-G((<%6*1ck@y$<_4t^ z!5qq*l8sq3+uCk?+~A9oIG4F+ksIIW|1%n>v=#ca+Lp;<0}qP?38gpijo)B0hpzB%O5K2x=1oF>%Xky4Mn*;~9ru1p+_mUG$3?K=l-)`YZWezh zm58@WqOKE=J}9>+dECMrmMk8b^%zgRR)k&KYX4`9=_+ZP1^_>#1g;$>L;WXXc~M7u(}Ql4~^OcquUdr-H5_KbEhH=~B`>wFaNC~DZE$e#1@wI6> z6KT_XSk_B5u&#{4)ncSiu1}7)42rfVmWQlD;=&pXp1FpTNYX%6uImK*GH)4hgS$b> zql)&kR0???To_y!1gGHnbsjRn-U%+6)1D;zfLdp(;I8Mr0G-QDEID1$Z`3!#=YRCz zREE!T^->-0_=xJ!I9p4V<6}KZ7ZNDQF7LeKcn~ANRfs7Z=tn zL?4h3Ly+%(S(DSOiRajH=8OD4-h48YIWUX;D8qf#*ZvQ@kNGx6z!vV(aR~|k-tU$)Vhw+qhisDT6>rO=k(e-H zleOtT1}Bi?w?-o_+%IM0oINyd_bO_G?X%iE%00&{;3CCMqCvBpYkKRdz>TK!5nG6p zA$skJAZU(?>L`to+*N^K??bk~57>f)?dMk@2pW3DJfBfc^7zHGl^o9~2}#6h8?pnK zAp}ow3E}LlBOxoewHmP}ldNhI_OQtgkf-W9iIw7Ta~54??d#t;I^KA=VXGE&<HwZY4w_)N`aw!On*LcZU7=cLbWtTCIIt7K;F*0btb=x1iD zoY2*o?fPg7j*EuWZ$+Ya*UL~Gy0DF)iA7Q>RrZQ2+uk?leOx&SAPzsrNN_ZclJVP= z!$=sv%d3!!Z@-L7c`-!msQ?*|C6ptq<6>GP@0pCN&&3n2hYW4Y_g2)aLM|B>d=VNo zxV7Qrv89RIuXU-);1y@&8KNT1A^!qsnwEa?_zmp6d4h7o+WbC%X(K#?=GZ#9Ydn?s z5VNzCg!s7@`z`FS8_M1o`pu-*k(3HI*y`BztC;OLf!Z!|zN!2xm z^jA@Q-E{J(`mnCBQq?{#J}ylwg`@LKIM}za_bxbo}-XF^+h%if_Vld@`=pBYsoD~&1yxfk3~l4 z;Y~9UFc$q?2}&7x%vOE<*0`m5&g0rir+T`4#@+R1)IxG^8h~3>M8I~(``hgtcJX?g zpe&Bx2``Tm(>@ez{#e|JxH5_31blwERUy+18*x)gOPO59Uc@QOfHj^fC$Z*Uk~=## zkDI^hifA+DtsSgu?c)mPGwu(9R8l4pyLv4Y;5Qq)^#EEdRvm1Rqk2rab3jp%;N|5l zG*mH~Nx!!jQQReahBba)BJjqsd)*Y3e6u}Y(PF%7%JhEjsvahP0EIP3k4ba8Wjes z&o5nL50bmqIf%kDBU-a!q4aI&^`qzk?q(`DhDVJQgoLLpQ80)9$Sa6L?H7S|x8RI& zcZO%r*8_-s1{Z(ZQWkJkOaFOSrLd{EZVNoa1~7HRe^jwp-YBJ*!&|#jv!7iM_lQV= z%)v;NTU6R}9D5sZO)u2Ifb(m$o@%J4Yq@Cp5ZA|_ljIJelcsr85uXKGy^Rw-&bD( zu`k2jXjfPG`0|Cs2ICsi4SFFGAH4R%rMz^#!}JbWJyB8 z;4sl4TW4g?lC6%B_{KS>u5-Tc{r&M?_w(NG@427nz5jXc>wbUurpRj!;$@F97x`H+ z-TQKhnnI0?QkwzLumbjoX(RO|_L#nw&0}bFv2@AK-~nAK)x+I-pJe*r6{) zptgB|;ONQB(2d|&H)Z_-3OH z=y)%L2!DGrerln8l7)TNEU*@JKTme9{A|>k-ZC-mLY40TAWD2ua+DB#gnf{0|7o7} zVN{uLc1)>+l3TNysKZp~EEdYnFKyhn@isK-1N3f1p^-Jd5N1x_w^6L3ztk5APSPY_ zN!nIc2g}3SMNEK&Tf(;V>ChxI2V3rev&^hqY`z$pEGnpMX`k=`Ro3hGAIluUgpv6< zO(IL;GfDfa1tuG9N9`#1xS9VHjXSnwc)q6nj7eIEkHt%W*-46HiWy(nvtwly6neKn ztCH$`8pXgN9HUve19wz}uYdkW3EkxrvZ(f9hi*8G;G%&OTImQwA|OkNd@I?Up<&Se&S`65rUoaJwE&d8C#hQiY-L zvT@v5)n*_da$vS1SyE2CfiWaNQ&Px zpt(^Iv0>XIvuy(8fUTaM4tnsiJuj+dr)FpuP_jX1HqAcQ&XCk`gWu>`tf_kFt$Q;L z%FD3Nq#p?Pc;QhGi%=HZ3JoGz|B}!gyc7(LP=&cjXp8*7W1SA}%zS}o0u8a|4x1M1 zK3TARz;q@htKHL$7&+-Sfi{3ixKoS6+hoSRbd9eLzHnyDDs@kk7u7DGDoWMrUQ>Ee zLHZKYW>N2k4;_o8_*A5e_D6u$eOWg}+}*yE#@DBv%0uwG zTQ8<;+h}p+F+)GwXgwP9qIY|%EEIAy7sO3k3I<3vQSxtz1_UEH-$_krmgo)IN$T;` zwY0w48j%^1Xjz2dm#1q5V%gRfILDYXOUX6EPPrQRy5En%owZh+jlX}AIvt;H_hvZ$ZZF&Ppt;18Skpjp z^!2#c1BD@9;fe{H$c-gt2Q*(aziOA=q2&}fyo=bkg~N-ZZ5qF|7|^9zh39?dhpWZQ z2P}&_a#VhgHRa}9RlXGW)1Cg*g681Cb9V%%P`$;8524=1eNgWTq63&e;}rjqSzx1s z?e+UN1eOCxC=yD2BB?5HWbasVopIrW!w_90VhxR~E3yMF1C|>A5!(SUsilwUwWTbL zFkZ_kRWyJB8(qy=yrQM|+d1%P{c|h!R#!On6?YorDGe!myPO4oXT&zJ1bfhej0+GI zfYQr+z`8B~g9u<4$TVo%A9;q7uVJN6>{p@Yja1(M~T+Ka0vubG2XB_mxkafHkY6 zXisPK-y-nBcR!LQ*u=c{G)J=uxl??UeEaE%-H%v-ex|Jd6n}L16x)aOS_|iT=cp(RS@K77}*$7R__8L zjKLDdU=tmhM5GqN9=oWSXN(^5b~XrtK-E-<@eZQ-%R!snPGWIeoG3^YGY*eA_@C<^^}= zroRQ>4tKY3-5g-@eDz!MNE#~p)gf~ODjUPTu424Y6wSBxW}9VAQVws`@4DU0&kS1)`~W1MaL&dVk_T* z;C+A>4aZlftA?a{tF-Ez9^}R)-Y({!Q~xc0E0XKlRBZmNREyV-6hRe@qftYym?W40 zrE}XOPY4R&i9<7Z5l?hU%%>;?9D8NTU&+*`BKWScuF5eJ^?3F~=p;(NQ~PqVeop$z z+wlGMDhvnK*@mE6QjyD~a>uNG-hD}M(noPK?g1w-v_#2l_$KtX5Ty8NOybDqVD{>j z80zU+IxfjhQA*nqmc$IWmQ;u)7cDy%gr#~mQ)mK2a#78ca$+dkPpbhqs4UlE``I#Q z`Y_!yITgujw$pu*>am*9)1X}aRv$iHdAa=bW-+N`!&9YqENuUa1FDx)*>_6x&Yy9- zd})8tiY&&?a#~)^=vR}gx(9!Mo%DcfKDe&pCYL|tY1x1E$O9z{OBbi3d6hekM&u>i zd{)*XjVK8gTD3hKsFu30ZOX-=3`>+crxC?cV4Tg7_0#qFF=^_-*{|7oz%RARXO)ns8T7q(tPt zRkfdEBsLz%5bITt@KX5}CPNRV7hbR*m+b|?OulmUV4p^j%qG%;&K-H6h1DgIi)dE&R8Nl z;~cOIp&EwNV((I|`WzZ6DP+=>l{f%zsN<@2wSJ}+D>=xk&-VrG8rop^Aqq+hqjSmt zzz+5&fDHx+k^p=c#iG@^ocXsZ7H!i-XRpsP+7$|%qS?5rd^e!9^uG*i929tw#&L!1 zJ=rr7XeV$#jAmNEUj~l=^hJSoOi@<&Uo(#5pdf@I&DQlGO$0Bcy(h_~C!#~s2Lb@0 zpg*;`_L@%rzI+q`fIvdn6~uo61HMNNfk1e2UNk%&>Nu*zdnqh3fDros4mfPhA3ptH z9&Ici03iIG@y|OQ&ZE6@&DV<%8iok*^!gv_K0Flo8*LFUy|+REHz=@&cEU|jZZFh- UZl%z_I8A82ZnFD4T=xe53oqXqX#fBK diff --git a/src/Mod/Material/StandardMaterial/Tools/headers b/src/Mod/Material/StandardMaterial/Tools/headers index b8dd3912070e..04cd58139375 100644 --- a/src/Mod/Material/StandardMaterial/Tools/headers +++ b/src/Mod/Material/StandardMaterial/Tools/headers @@ -12,26 +12,28 @@ Norm ReferenceSource SourceURL StandardCode -YoungsModulus -UltimateTensileStrength -PoissonRatio -AmbientColor AngleOfFriction -Color CompressiveStrength Density +FractureToughness +PoissonRatio +ShearModulus +UltimateStrain +UltimateTensileStrength +YieldStrength +YoungsModulus +AmbientColor +Color DiffuseColor EmissiveColor EnvironmentalEfficiencyClass ExecutionInstructions Finish FireResistanceClass -FractureToughness FragmentShader Model SectionFillPattern SectionLinewidth -ShearModulus Shininess SoundTransmissionClass SpecificHeat @@ -41,13 +43,11 @@ TextureScaling ThermalConductivity ThermalExpansionCoefficient Transparency -UltimateStrain UnitsPerQuantity VertexShader ViewColor ViewFillPattern ViewLinewidth -YieldStrength ProductURL SpecificPrice Vendor diff --git a/src/Mod/Material/StandardMaterial/Wood-Generic.FCMat b/src/Mod/Material/StandardMaterial/Wood-Generic.FCMat index 4b3a688f8e8a..cff0910a7994 100644 --- a/src/Mod/Material/StandardMaterial/Wood-Generic.FCMat +++ b/src/Mod/Material/StandardMaterial/Wood-Generic.FCMat @@ -7,7 +7,7 @@ Name = Wood Description = A standard construction wood Father = Aggregate -YoungsModulus = 12000 MPa -PoissonRatio = 0.05 Density = 700 kg/m^3 +PoissonRatio = 0.05 +YoungsModulus = 12000 MPa ProductURL = https://en.wikipedia.org/wiki/Wood