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INT 506/706: Total Quality Management. Lec #8, Gauge R & R Studies. Outline. Review Measurements Gauge R & R Repeatability Reproducibility. Measurement. Your data with its subsequent analysis, is only as good as your measurement system. Measurement.
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INT 506/706: Total Quality Management Lec#8, Gauge R & R Studies
Outline • Review Measurements • Gauge R & R • Repeatability • Reproducibility
Measurement Your data with its subsequent analysis, is only as good as your measurement system
Measurement Variation found on a control chart is a combination of product variation and gauge variation
Measurement • Is it valid? Validity • Are you measuring what you think you are measuring? • Is it precise? Precision • A lack of precision = excessive variation in measurements • Is it accurate? Accuracy • A lack of accuracy indicates the average measurement is off target
Measurement • Validity: • A measurement is valid if it represents the feature or geometry of interest
Measurement • Validity: • Fundamental in developing an effective measurement system. • Will the measurement method faithfully portray the quantity of interest. Think Operational Definitions
Measurement • Precision: • A measurement system is precise if it shows littlevariation when the same object or geometry is measured repeatability.
Measurement • Precision: • Does one get essentially the same value every time a particular measurement is made? • Intrinsic property of a measurement method or device
Measurement • Accuracy: • A measurement system is accurate (unbiased) if, on average, it produces the correct value
Measurement • Is the average value the “true” value? • This is the reason and science of calibration.
Precision or Accuracy? • Target shooting analogy: • PRECISION: produce a tight pattern, consistency. • ACCURACY: produce a pattern centered on the bull’s eye, hitting the target
Summary • Measurement systems should be: • Valid: measuring what you want it to measure • Accurate: centered on the target, on average • Precise: consistent with little variation
Gauge R & R • Used to quantify the precision of gauges or other measurement devices or systems. • Multiple operators using the same gauge (measurement device or system)
Set up • How many like pieces are to be measured? • How many people will be involved in taking readings? • How many repeat readings will be made by each individual?
Set Up • Several parts, np. • Several operators, no. • Each operator measures each part several times, nM.
Set Up no – several operators nm – repeated measures of same part no – several parts
Set up Minitab worksheet can be created for your gauge R&R study
Rule of 10 The rule of 10 states that the gauge should be at least 1/10 as accurate as the tolerance of the characteristic that is being measured
Rule of 10 Example: Engineering tolerance: +/- 0.005 inches Total tolerance: 0.010 inches Rule of 10: .010/10 = 0.001 inches is the precision your gauge should be able to read, called the discrimination capability.
Repeatability Measures the consistency of readings of the same item by one person Poor repeatability reflects gauge (measuring device) problems
Reproducibility Variation in the average measurement when different people use the same gauge Poor reproducibility reflects an operator/training problem
Range Method Calculating the averages and ranges of appraisers’ trials making repeated measures
Example Two appraisers being studied using an outside micrometer to measure the outside diameter of a part 0.047 +/- 0.003
Example • 5 parts, np = 5 • 2 operators, no = 2 • 2 repeat measurements, nM= 2 0.047 +/- 0.003
Example • Determine: • 1) Average ranges & Ranges for each sample on each operator Average Range (Ro) = .04708 - .04699 = Ro =.00005
Example • Determine: • 1) Average ranges & Ranges for each sample on each operator
Example • Determine: • 2) Average for each sample… Max Min = .047035
Example Determine: 3) Compute X-bar and R Charts 4 or 5 averages in x-bar chart should be outside control limits
Example Desirable Averages chart
Example Average of the averages Average ranges Range of inspector averages Range of the part averages
Repeatability • Repeatability • Compute the range for each operator/part combination. • R-bar is the average of the ranges. Appendix 11, p. 499 (3rd edition)
Repeatability Variance = .00016382 = .00000002683044
Reproducibility • Reproducibility • A measurement system is reproducible when different appraisers produce consistent results
Reproducibility The term includes error due to repeated measure (appraiser measuring two times)
Reproducibility Variance = .00000000142559 Depending on how close to 0, Minitab will take square root of absolute value Neg. variances impossible, Set to 0
Measurement System Variation due to Equipment Variation (Repeatability) and Appraiser Variation (Reproducibility)
Part-to-part All the other variation not accounted for in the measurement system
Part-to-part Appendix 11 m = 5 (number of parts) g = 1 (since there is only one Range calculation
Total Process Variation Measurement system variation plus part-to-part variation Measurement Part-to-Part Variation Variation