StatisticalProcessControl(SPC).pptx
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1、Materials QualityPCS Training - Rev 2 Feb 23 20016/25/97Materials QualityPCS Training - Rev 2 Feb 23 2001Create Measurement PlanEstablish Monitor (SPC)Implement Response Flow Checklist (RFC)Element 1Element 2Element 32Materials QualityPCS Training - Rev 2 Feb 23 2001 Introduction What is SPC What is
2、 Stability What is a Control Chart How to Set-up a Control Chart Type of Control Charts Available How to Calculate the Control Limits SPC Trend Rules When to Revise Control Limits Process Capability Study Spec limits VS Control Limits Stability VS Capability Control Chart Reduction/Elimination SPC E
3、xpectations3Materials QualityPCS Training - Rev 2 Feb 23 2001 Statistical Anything that deals with the collection, analysis, interpretation & presentation of numerical data Gaining information for making informed decisions Process Combination of machines, tools, methods, materials & people employed
4、to attain process specification A similar procedure/event that is happening repetitively Control To keep something within a desired condition Make something behave the way we want it to behaveThe use of statistical techniques such as control charts to analyze a process, take appropriate actions to a
5、chieve & maintain a stable process, & improve process capability. 4Materials QualityPCS Training - Rev 2 Feb 23 2001What is Stability? A process is said to be Stable if it has the following properties: Pattern appears random Constant process mean Uniform variability over time No trends, runs, shifts
6、, erratic ups & downs Important for many reasons: Increased productivity of engineering & manufacturing personnel Predictable, repeatable results within a specified range5Materials QualityPCS Training - Rev 2 Feb 23 2001What is a Control Chart? A trend chart with control limits Graphical representat
7、ion of process performance, where data is collected at regular time sequence of production Valuable tool for differentiating between common cause and special cause variation Evaluating whether a process is or is not in a state of statistical control It lets the data talk by itself & basis for data-d
8、riven decisions6Materials QualityPCS Training - Rev 2 Feb 23 2001Control LimitsA typical control chart consists of three lines :-Upper ControlLimit (UCL)Center Line(CL)Lower ControlLimit (LCL)CL: The average (measure of location) process performance when the process is in-controlUCL & LCL: The range
9、 of usual process performance when the process is stable. Lines drawn 3 standard deviations (3 sigma) on each side of the center line.7Materials QualityPCS Training - Rev 2 Feb 23 2001Control Chart Assumptions Process Stability The process must be in statistical control Normality The underlying proc
10、ess distribution is normalNote: If the assumptions are not met, the control limits calculated are misleading & do not accurately indicate 3 sigma control limits. See your site statistician for advice on calculation methods when assumptions are violated.8Materials QualityPCS Training - Rev 2 Feb 23 2
11、001Test for Control Chart Assumptions Process Stability (no outliers) Screen out outliers from the database before computing final control limits by using a control chart. Any point beyond either control limit is an outlier. Report number of outliers screened. Normality Plot a normal probability plo
12、t of the data or overlay a normal curve over the histogram. Normally distributed data will roughly fall on a straight line. Test for normality by using Shapiro-Wilk W test in JMP 9Materials QualityPCS Training - Rev 2 Feb 23 2001 Select appropriate type of control chart to be used Gather data to est
13、ablish the control chart. A minimum of 30 subgroups is required over a time frame as determined by the sampling plan. Plot the data in time order on a Trend ChartHow to Set-up a Control Chart?10Materials QualityPCS Training - Rev 2 Feb 23 2001 Compute the control limits & plot them on the trend char
14、t Outliers identification & exclusion Exclude the Out-of Control (OOC) points or outliers for which there are verified/confirmed special causes from the chart Re-compute the control limits, excluding the OOC points If there are fewer than 30 points remaining at any time, collect more data. Its very
15、important that the control limits are calculated using at least 30 subgroups.How to Set-up a Control Chart?Note: Refer to Appendix A for Control Charts for Limited Production, i.e. 30 subgroups.11Materials QualityPCS Training - Rev 2 Feb 23 2001 Validate the computed control limits against data coll
16、ected by re-plotting the control chart with data & new control limits Do the limits detect known problems? Are the limits too sensitive? Would they flag problems you do not know how to react to? Use the control limits established to monitor the critical parameter identified For each parameter, every
17、 machine should have a separate control chart with separately computed control limitsHow to Set-up a Control Chart?12Materials QualityPCS Training - Rev 2 Feb 23 2001Control Chart ClassificationsClassifications of control charts are depending onthe type of data Variables data A characteristic measur
18、ed on a continuous scale resulting in a numerical value Examples: Void Size, Bond Pull Strength, Coplanarity, Ball Height, etc. Attributes data A characteristic measured by # of conforming & non-conforming to a specification. Output is classified as pass/fail or accept/reject. E.g. Broken Wire, Lift
19、ed Bond, FM, Chipping, Bent Lead, etc. Can be expressed in terms of fraction, percentage, count or DPM13Materials QualityPCS Training - Rev 2 Feb 23 2001 Control Chart When to Use (Guidelines only)? X-R - when subgrouping of samples or (Mean-Range) Chart measurements is applicable - n 1014Materials
20、QualityPCS Training - Rev 2 Feb 23 2001Why MR Method is used to determine Control Limits for Mean & Variability (Range & Standard Deviation) Chart? Most batch production processes have a larger run-to-run variation than within-run variation Traditional control chart formulas developed in the 20s by
21、Walter Shewhart considerably underestimate control limits, i.e. too narrow 15Materials QualityPCS Training - Rev 2 Feb 23 2001Traditional vs. MR Method859095100105110115OrderAvg=99.1LCL=96.5UCL=101.8Mean of Meas.708090100110120130OrderAvg=99.1LCL=76.7UCL=121.5Mean(Meas.)Traditional control chart for
22、mulasare used.Moving Range (MR) Method is used.X-bar Control ChartX-bar Control Chart16Materials QualityPCS Training - Rev 2 Feb 23 2001X - S Chart ConceptConsists of Two Portions: X Chart Plots the mean of the X values in the sample Shows the changes of the mean of one sample to another S Chart Plo
23、ts the standard deviation of a sample Shows the changes in dispersion or process variability of one sample to another17Materials QualityPCS Training - Rev 2 Feb 23 2001Computing Control Limits for X - S Chart Obtain at least k = 30 subgroups Compute the Mean for each subgroup of size n Compute the S
24、tandard Deviation for each subgroup Compute the Moving Range for each subgroup mean, MRXi = | Xi - Xi-1 | Compute the Moving Range for each subgroup range, MRSi = | Si - Si-1 |18Materials QualityPCS Training - Rev 2 Feb 23 2001Computing Control limits for X - R Chart Compute the Overall Mean, X = (X
25、1 + X2 + X3 . + Xk) / k Compute the Average of Range, S = (S1 + S2 + S3 . + Sk) / k Compute the Average of Moving Range for the mean, MRX = (MRX2 + MRX3 + MRX4 . + MRXk) / (k - 1) Compute the Average of Moving Range for the range, MRS = (MRS2 + MRS3 + MRS4 . + MRSk) / (k - 1)=19Materials QualityPCS
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