diff --git a/applications/plugins/SofaCarving/examples/SimpleCarving.py b/applications/plugins/SofaCarving/examples/SimpleCarving.py
new file mode 100644
index 00000000000..037de56f25b
--- /dev/null
+++ b/applications/plugins/SofaCarving/examples/SimpleCarving.py
@@ -0,0 +1,101 @@
+import Sofa
+import Sofa.Simulation
+
+def main():
+    root = Sofa.Core.Node("root")
+    createScene(root)
+    Sofa.Simulation.init(root)
+
+    Sofa.Gui.GUIManager.Init("myscene", "qglviewer")
+    Sofa.Gui.GUIManager.createGUI(root, __file__)
+    Sofa.Gui.GUIManager.SetDimension(1080, 1080)
+    Sofa.Gui.GUIManager.MainLoop(root)
+    Sofa.Gui.GUIManager.closeGUI()
+
+
+# This scene demonstrate how the use the CarvingManager component to perform carving operations (deleting topological element like triangle/tetrahedron) between a tool and a target object on a target object. 
+# The tool performing the carving as well as the object to be carved need to be represented by collision models.
+def createScene(root):
+    root.gravity=[0, 0, 0]
+    root.dt=0.05
+    root.showBoundingTree = 0
+
+    # Load required plugins
+    plugins = root.addChild('Plugins')
+    plugins.addObject('RequiredPlugin', name="MechanicalLoop", pluginName="Sofa.Component.AnimationLoop Sofa.Component.ODESolver.Backward Sofa.Component.LinearSolver.Iterative Sofa.Component.Mapping.NonLinear Sofa.Component.Mapping.Linear") 
+    plugins.addObject('RequiredPlugin', name="MechanicalModel", pluginName="Sofa.Component.StateContainer Sofa.Component.Mass Sofa.Component.SolidMechanics.FEM.Elastic") 
+    plugins.addObject('RequiredPlugin', name="Collision", pluginName="Sofa.Component.Collision.Detection.Algorithm Sofa.Component.Collision.Detection.Intersection Sofa.Component.Collision.Geometry Sofa.Component.Collision.Response.Contact") 
+    plugins.addObject('RequiredPlugin', name="Constraint", pluginName="Sofa.Component.Constraint.Lagrangian.Correction Sofa.Component.Constraint.Lagrangian.Solver Sofa.Component.Constraint.Projective") 
+    plugins.addObject('RequiredPlugin', name="Topology", pluginName="Sofa.Component.Topology.Container.Constant Sofa.Component.Topology.Container.Dynamic Sofa.Component.Topology.Mapping") 
+    plugins.addObject('RequiredPlugin', name="Visual", pluginName="Sofa.Component.Visual Sofa.GL.Component.Rendering3D") 
+    plugins.addObject('RequiredPlugin', name="Utils", pluginName="Sofa.Component.IO.Mesh SofaCarving")
+
+    root.addObject('VisualStyle',displayFlags="showVisualModels")
+
+    # Add main scene pipeline components
+    root.addObject('DefaultVisualManagerLoop')
+    root.addObject('DefaultAnimationLoop')
+    root.addObject('CollisionPipeline', verbose=False, draw=False)
+    root.addObject('BruteForceBroadPhase')
+    root.addObject('BVHNarrowPhase', name="narrowPhase")    
+    root.addObject('MinProximityIntersection', name="Proximity", alarmDistance=0.08, contactDistance=0.05, useSurfaceNormals=False)
+    root.addObject('CollisionResponse', response="PenalityContactForceField")
+    
+    # Add the CarvingManger object, linking the collision pipeline, as well as the collision model of the tool used to carve. The collisions models to be carved are found using the tags: CarvingSurface.
+    # the carvingDistance need to be lower than the contactDistance of the collision pipeline. 
+    root.addObject('CarvingManager',active=True, carvingDistance=-0.01, narrowPhaseDetection="@narrowPhase", toolModel="@Instrument/CollisionModel/ParticleModel")
+  
+    # Add Volume mechanical object to be carved
+    TT = root.addChild('TetraVolume')
+    
+    TT.addObject('EulerImplicitSolver',name="cg_odesolver", printLog=False, rayleighStiffness=0.1, rayleighMass=0.1)
+    TT.addObject('CGLinearSolver', name="linear solver", iterations=25, tolerance=1.0e-9, threshold=1.0e-9)
+    TT.addObject('MeshGmshLoader', name="loader", filename="mesh/liver.msh")
+    
+    TT.addObject('MechanicalObject',template="Vec3d", name="Volume", src="@loader")
+    
+    TT.addObject('TetrahedronSetTopologyContainer', name="topo", src="@loader")
+    TT.addObject('TetrahedronSetTopologyModifier', name="topoMod")
+    TT.addObject('TetrahedronSetGeometryAlgorithms', template="Vec3d", name="GeomAlgo")
+    
+    TT.addObject('DiagonalMass', massDensity=0.5)
+    TT.addObject('FixedConstraint', indices=[1, 3, 50])
+    TT.addObject('TetrahedralCorotationalFEMForceField', name="CFEM", youngModulus=160, poissonRatio=0.3, method="large")
+
+    # Add corresponding surface topology
+    T = TT.addChild('TriangleSurface')    
+    T.addObject('TriangleSetTopologyContainer', name="Container")
+    T.addObject('TriangleSetTopologyModifier', name="Modifier")
+    T.addObject('TriangleSetGeometryAlgorithms', template="Vec3d", name="GeomAlgo")
+    T.addObject('Tetra2TriangleTopologicalMapping', input="@../topo", output="@Container")
+    
+    T.addObject('TriangleCollisionModel', tags="CarvingSurface")
+
+    Visu = T.addChild('VisualModel')
+    Visu.addObject('OglModel', name="Visual", material="Default Diffuse 1 0 1 0 1 Ambient 0 1 1 1 1 Specular 1 1 1 0 1 Emissive 0 1 1 0 1 Shininess 1 100")
+    Visu.addObject('IdentityMapping', input="@../../Volume", output="@Visual")
+
+
+    # Add instrument object
+    Instrument = root.addChild('Instrument')
+    Instrument.addObject('EulerImplicitSolver', name="cg_odesolver")
+    Instrument.addObject('CGLinearSolver', name="linear solver", iterations=25, tolerance=1.0e-9, threshold=1.0e-9)
+    Instrument.addObject('MechanicalObject', template="Rigid3d", name="instrumentState", rotation=[90, 45, 0], translation=[0, 0, 1])
+    Instrument.addObject('UniformMass', template="Rigid3d", name="mass", totalMass=5.0)
+    
+    visuIns = Instrument.addChild('VisualModel')
+    visuIns.addObject('MeshOBJLoader', name="meshLoader_0", filename="mesh/dental_instrument_light.obj", translation=[-0.412256, -0.067639, 3.35], rotation=[180, 0, 150], handleSeams=True)
+    visuIns.addObject('OglModel',template="Vec3d", name="InstrumentVisualModel", src="@meshLoader_0", material="Default Diffuse 1 1 0.2 0.2 1 Ambient 1 0.2 0.04 0.04 1 Specular 0 1 0.2 0.2 1 Emissive 0 1 0.2 0.2 1 Shininess 0 45")
+    visuIns.addObject('RigidMapping', name="mecha mapping", input="@instrumentState", output="@InstrumentVisualModel")
+
+    colIns = Instrument.addChild('CollisionModel')
+    colIns.addObject('MechanicalObject', template="Vec3d", name="Particle", position=[-0.2, -0.2, -0.2])
+    colIns.addObject('SphereCollisionModel', name="ParticleModel", radius=0.2, tags="CarvingTool")
+    colIns.addObject('RigidMapping', name="mecha mapping", input="@instrumentState", output="@Particle")
+
+    return root
+
+
+#Function used only if this script is called from a python environment
+if __name__ == '__main__':
+    main()