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Industry Study Design Guide
Calvin Yang edited this page Jun 1, 2026
·
1 revision
Red flags, study design tables, and instrument guidance for eight industries.
Jump to: Medical device | Manufacturing | Aerospace | Automotive | NIST / Metrology | Healthcare | Energy | Defense
Standards: 21 CFR Part 820.72 | ISO 13485:2016 | AIAG MSA 4th Ed.
| Flag | Why it matters |
|---|---|
| %GR&R > 30% | Cannot distinguish conforming from non-conforming product |
| ndc < 5 | SPC and Cpk analysis is statistically invalid |
| AV > EV | Operator technique dominant — training/fixture usually resolves before gage replacement |
| EV >> AV | Gage hardware weak link — calibration or replacement needed |
| Study not in production environment | FDA investigators specifically check this |
| Operator ranges > UCL | Erratic technique or undisclosed part-handling damage |
| Consideration | Guidance |
|---|---|
| Study size | 10 × 3 × 3 baseline; life-sustaining devices: 10 × 3 × 5 |
| Part selection | Must span full production tolerance range |
| Randomisation | Re-code parts; operators must not see each other's readings |
| Re-study triggers | Equipment repair, process change, new operator, calibration expiry |
| DHF/DMR record | Study, raw data, and acceptance decision retained per 21 CFR 820 |
- Micrometers/calipers — tighten to <=10% for critical implant dims; 30-min thermal soak
- CMM — validate fixture repeatability separately; probe qualification interval matters
- Force/torque gauges — standardise loading rate and dwell; always approach from same direction
- Hardness testers — randomise indentation; never reuse prior indents
- Surface roughness — lock traversal direction and lambda_c; use fixture for re-positioning
- Electrical test equipment — include cable/fixture impedance in study; 4-wire Kelvin for R < 1 ohm
- Balances — draught shield mandatory below 0.1 g; anti-static ioniser for plastic/powder parts
Standards: IATF 16949:2016 | AIAG APQP 3rd Ed. | ISO 9001:2015
| Flag | Why it matters |
|---|---|
| %GR&R > 10% for SPC dimensions | PPAP OEM portals auto-reject submissions above this |
| ndc < 5 | SPC control charts produce false signals |
| PPAP MSA section incomplete | Missing GR&R is a Level 3 PPAP rejection trigger |
| SPC not pre-established | Unstable process inflates PV, produces false-acceptable GRR |
| Consideration | Guidance |
|---|---|
| Production gages | <=10% GRR for SPC/Cpk dimensions |
| Incoming inspection | <=20% acceptable maximum |
| PPAP Level 3 | Full raw data + MSA summary required |
| ndc | >=5 AIAG; >=8 for SPC-critical parameters |
| Re-study frequency | Annual minimum; OEMs may specify more often |
- CMM — version-control the measurement program; validate fixture independently
- Torque tools — standardise loading rate; approach from same direction always
- Vision systems — lock illumination and threshold settings before study
- Thread gauges — attribute agreement analysis (kappa), not variable GRR
- Surface plates — flatness certificate and temperature soak time documented
Standards: AS9100D | NADCAP AC7130 | SAE ARP9013
| Flag | Why it matters |
|---|---|
| %GR&R > 10% for flight-critical | AS9100D/NADCAP mandate <=10% — AIAG 30% is not acceptable |
| Missing NIST traceability | NADCAP audits require documented chain to NIST or equivalent NMI |
| Gage changed mid-study | Frozen process control: any change after study start invalidates it |
| No measurement uncertainty budget | ISO 17025 requires expanded U = k*u_c documented |
| Consideration | Guidance |
|---|---|
| GRR threshold | <=10% mandatory for flight-critical |
| Traceability | Full calibration chain to NIST retained with study |
| Uncertainty budget | Identify u_i sources; compute u_c; state U = 2*u_c at 95% confidence |
| Frozen process | No gage/probe/program changes between study start and sign-off |
| Study size | 10 × 3 × 3 minimum; NADCAP NDT often requires 5 operators |
- CMM — temperature-compensated; document part soak time; probe qualification per trial
- Laser tracker — atmospheric correction (temperature, pressure, humidity) active and logged
- Ultrasonic thickness gauge — couplant and probe pressure standardised; velocity calibrated at study temperature
- Optical profilometer — traversal direction locked to machining lay; lambda_c fixed
Standards: AIAG MSA 4th Ed. | AIAG PPAP 4th Ed. | VDA Volume 5
| Flag | Why it matters |
|---|---|
| %GR&R > 10% for SPC dimensions | OEM portals (GM, Ford, Stellantis) auto-reject PPAP |
| ndc < 5 (AIAG) or < 8 (VDA) | State which standard governs |
| No linearity and bias for PPAP Level 3 | Required in addition to crossed GRR for spanning gages |
| Fixture effect not quantified | Embeds in EV; cannot be separated post-hoc |
| Consideration | Guidance |
|---|---|
| GRR threshold | <=10% PPAP SPC; <=20% with customer concurrence |
| Linearity and bias | Required for PPAP Level 3 |
| ndc | >=5 AIAG; >=8 VDA Volume 5 for SPC-critical |
| Study timing | After production tooling installed and capable |
| PPAP submission | Raw data + summary + range chart + X-bar chart |
- Air gauge — stabilise supply air and part temperature; master rings with documented temperature coefficients
- CMM — production-environment CMM preferred over metrology lab for PPAP
- Profilometer — traversal speed, force, and lambda_c locked; parameter matches drawing callout
- Functional fixtures — fixture wear is primary EV source; re-qualification in control plan
Standards: NIST Handbook 44 | VIM JCGM 200:2012 | ISO/IEC 17025:2017 | ILAC P14
ISO 17025 labs express uncertainty as expanded U = k*u_c (k=2), not as %GRR.
| GRR component | Uncertainty equivalent | Distribution |
|---|---|---|
| EV (Repeatability) | Type A, within-lab | Normal |
| AV (Reproducibility) | Type A, between-operator | Normal |
| Reference standard uncertainty | Type B | Normal or rectangular |
| Thermal expansion coefficient x delta_T | Type B | Rectangular |
| Resolution / least count | Type B | Rectangular (u = res / (2*sqrt(3))) |
CMC rule: U_reference <= 25% of tolerance (ILAC P14).
| Flag | Why it matters |
|---|---|
| Expanded U not reported | ISO 17025 requires U at k=2 on all calibration certificates |
| k factor not stated | Cross-lab comparisons are invalid without coverage factor |
| Reference not in accreditation scope | Non-conformity at NADCAP or A2LA audit |
| Environmental conditions not logged | Temperature, humidity, pressure required for every measurement |
- Gage blocks — wringing film (~0.01 um) is systematic EV; match CTE to workpiece
- Laser interferometer — Edlen refractive index correction required; vibration isolation mandatory
- Precision balance — ioniser for electrostatic below 1 mg; matched magnetic susceptibility of weights
- Dead-weight tester — piston-cylinder area with thermal expansion and air buoyancy correction
Standards: CLIA 42 CFR Part 493 | ISO 15189:2022 | CLSI EP05-A3 | CLSI EP15-A3
In clinical labs: operator = analyst, trial = run/replicate, tolerance = TEa.
| AIAG | Clinical equivalent |
|---|---|
| EV (within-operator) | Within-run imprecision (CV_r) |
| AV (between-operator) | Between-analyst imprecision |
| (not in AIAG) | Between-run imprecision (CV_rr) |
| (not in AIAG) | Between-day imprecision (CV_d) |
Sigma metric = (TEa - |bias|) / CV_total
| Sigma | Verdict |
|---|---|
| >= 6 | World-class |
| >= 4 | Acceptable |
| < 3 | Immediate corrective action |
| Flag | Why it matters |
|---|---|
| CV > TEa/4 | Imprecision alone consumes >25% of total error budget |
| Sigma < 3 | Unreliable for patient decision-making regardless of QC |
| Bias not evaluated | CLIA and ISO 15189 require both precision and bias |
| Matrix not matched | Must use commutable patient-like material |
- Pipette — gravimetric verification required; standardise tip lot and aspiration speed
- Clinical analyzer — document reagent lot; calibration before study; QC passes before each run
- Glucometer — strip lot is dominant EV; compare across multiple lots for CLIA waiver
- Spectrophotometer — verify wavelength accuracy and stray light; thermostat sample temperature
Standards: ISO 50001:2018 | IEC 61869 | ASME PTC 19.1 | OIML R 46
| Class | MPE | Application |
|---|---|---|
| 0.1 | +/-0.1% | Reference metering |
| 0.2 | +/-0.2% | Revenue, transmission |
| 0.5 | +/-0.5% | Revenue, distribution |
| 1.0 | +/-1.0% | Industrial sub-metering |
| 2.0 | +/-2.0% | Residential metering |
GRR equivalent: M&V protocol (IPMVP Option D). Target: total uncertainty <= 2% of measured energy.
| Flag | Why it matters |
|---|---|
| Instrument transformer ratio error excluded | CT/VT errors enter meter reading directly |
| Flow meter not calibrated at operating conditions | Viscosity and Reynolds number affect K-factor |
| No reference meter | Cannot detect systematic bias |
- Revenue meter — sealed, tamper-evident; GPS/NTP time sync for interval metering
- Current transformer — test at 5%, 20%, 100%, 120% of rated current
- Flow meter — K-factor at operating viscosity; installation effects replicated
- Power analyzer — crest factor rating verified; harmonic analysis for spectral aliasing
Standards: MIL-STD-45662A | MIL-HDBK-1828 | ANSI/NCSL Z540.3
TUR = Tolerance / (2 * U_measurement)
| TUR | Requirement |
|---|---|
| >= 4:1 | Z540.3 default — no guard band required |
| 3:1 to 4:1 | Guard band required |
| < 3:1 | Special approval + documented risk acceptance |
TUR maps to %GRR: TUR = Tolerance / (5.15 * sigma_GRR)
Guard banding: acceptance limit moves inside tolerance by k_GB * U_measurement (k_GB = 1.0 default; k_GB = 2.0 for safety-critical parameters).
| Flag | Why it matters |
|---|---|
| TUR < 4:1 without guard banding | Direct Z540.3 violation |
| No uncertainty on calibration certificate | MIL-STD-45662A / Z540.3 violation |
| Classified hardware without access log | DCSA security violation |
| Calibration interval exceeded | Invalidates all measurements after due date |
- Torque wrench (mil-spec) — per MIL-DTL-28778; CW and CCW calibrated separately
- CMM — per ASME B89.4.10348; volumetric verification with ball-bar or step gauge
- Pressure gauge — deadweight calibration; hysteresis tested in both directions
- Electrical multimeter — 4-wire Kelvin for R < 1 ohm; lead resistance subtracted