SuperSMITH Software WinSMITH Weibull Student Version Step-by-Step Tutorial using Case Studies By Dr....
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![Page 1: SuperSMITH Software WinSMITH Weibull Student Version Step-by-Step Tutorial using Case Studies By Dr. Robert B. Abernethy Copyrighted 2006.](https://reader036.fdocuments.us/reader036/viewer/2022062313/56649d3f5503460f94a18c2b/html5/thumbnails/1.jpg)
SuperSMITH SoftwareWinSMITH Weibull Student Version
Step-by-Step Tutorial usingCase Studies
By Dr. Robert B. Abernethy
Copyrighted 2006
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Problem#1:Plotting a Weibull with suspensions
Produce a Weibull plot based on the following data:Note the differences between the two plots.
1. Use Median Ranked Regression (MRR), 2. then Maximum Likelihood Estimates (MLE).
Failure Time (cycles) Status
1500 Failure1750 Suspension2250 Failure4000 Failure4300 Failure5000 Suspension7000 Failure
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Step by Step
• Open WinSMITH Weibull Student Version (WSWS): double click the icon on the desktop or go to “Start--> Programs-->Supersmith Weibull
• Input the data, using a negative sign for suspensions. Or you can cut and paste from EXCEL.
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Inputting data to SuperSMITH
Then click on the “paste”bottle graphic.
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Notice that the suspensions that were put in as a negativenumbers show up as a >1750 and >5000
After a few seconds, SuperSMITH automatically produces your Weibull plot
Now, click on “Labels”to put your titles on the plot
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Type in your title and click the green checkDo the same for the y-axis title, and put your initials in
Customize your plot with titles
Finally, click“Exit”
Click here to put a label on the plot
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In order to save this plot to a PowerPoint slide click on the “printer” graphic.
Getting your plot into PowerPoint
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Now click on the “clipboard” graphic;Then go to a blank page in Powerpoint and “paste.”
Getting your plot into Powerpoint(continued)
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Final Median Ranked Regression Weibull
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To do an Maximum Likelihood (MLE) Weibull
Click on this symbol
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To do an MLE Weibull(continued)
Click on this symbol
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To do an MLE Weibull(continued)
This is an MLE Weibull, and note the poor fit
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Problem #2
• The following data represents the life of precision grinder wheels measured in number of pieces produced.
• Fit a Weibull to this data.. Is a t0 needed?
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Do a Ranked Regression as in Problem 1:Note the curvature in the Weibull plot
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To do a t0 correction in WSWS
Click on t0 – 3 parameter Weibull button
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To do a t0 correction in WSWS (continued)
Click on this button, then click On the green “check”
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.
Note the improvement in r2.. from 0.764 before to 0.98 now
To do a t0 correction in WSWS (continued)
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Problem #3
• The following data represents the shear strength of brass and steel brake rivets.
• Do a Weibull of each… is there a significant difference between the two?
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First, the brass rivet Weibull
Cut and paste the data from EXCEL™, or punch in directly, then …Click here to put confidence bounds on the plot
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Put confidence bounds on this Weibull
Click on this button for 2-sidedConfidence bounds……………...
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Continuing to put Confidence bounds on a Weibull line
Accept 90% confidence…….
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You now have a Weibull Plot for Shear strength of Brass rivets , with 90% confidence bounds
Note that the confidence bound at 10% failure or 90% reliability is(8.7-104.7) This may be read from the plot or the “report.”
18 110
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To see the “Report” Click on the right Tab
How to bring up the “Report”
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The Report Shows Exact Readings From The Plot
Here are the exact 90% Confidence B10 Bounds which are also 90% Reliability Bounds. Other B lives may be added using the report icon. Also shown are confidence bounds for eta and beta.
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Now repeat this procedure for the steel rivets
90% confidence bounds at 10% reliability are (152.9-513.1)
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Declare a Significant Difference
•Confidence bounds for Brass rivets at 90% reliability are (8.7-104.7).
•Confidence bounds for steel rivets at 90% reliability are (152.9-513.1).
Conclusion: Since these bounds do not overlap at the B10 level, there is a significant difference in the strength of the brass and steel rivets with 90% confidence.
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Problem #4
• The following data represents the pull strength of spot welds from the lab:
• Fit a Weibull to this data.. Anything surprising … do you believe the value of the calculated
Pull Strength(Newtons)142146150154158162166
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seems high, try Lognormal andNormal.
Doing a Ranked Regression Weibull as before
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Now try a Lognormal
Click on this button
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Now try a Lognormal, continued
Click on this button (if you wait a second or twoThe name of the option will appear below it in a yellow box).
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Now let’s try a Normal
Click on this button
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Click on this button
Now let’s try a Normal (continued)
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Click on this button, thenThen “NO” on “Lower bias?”
Now let’s try a Normal (continued)
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So far, where are we?
Hmmm, looks like log-normal or Normal..But wait , look at the original Weibull…It’s a little hard to tell, but it seems like There may be curvature .. Let’s try a T0 correction.
Distribution r^2Weibull 0.975Lognormal 0.992Normal 0.992
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Doing a t0 correction
Click on this button
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Doing a t0 correction (continued)
Click on this button, and the “No” will change to “Yes”,then click the Green check
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Doing a t0:The fit is better,R2=.995,so, 3-parameter Weibullis your best choice????
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To Find the Best Distributionr2 is a good measure of fit but (r2 – CCC2) is more accurate as explained in Chapter 3. Remember the “Report” we used in Problem 3? It contains (r2 – CCC2) and this allows us to do an accurate distribution analysis. If we click on the tab above the plot for each distribution, the results are:
Weibull 2-parameter (r2 – CCC2) = 0.1487Weibull 3-parameter = 0.0739Log Normal = 0.1511
Therefore from a statistical view the Log Normal best fits our data set. However, the physics of failure and prior experience may provide more information, at least equally important, as discussed in Chapter 3.
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Remember the Pump Problem in Chapter 4?
-1000
-1000
2000
-2000
-2000
-2000
-2000
3000
-3000
-3000
-3000
-3000
-4000
-4000
-4000
-4000
-4000
Let’s see if we can do the Abernethy Risk failure forecast to predict the number of failures on the 18 remaining pumps in the next year. To make the Weibull plot, Figure 4.1, enter the data shown in Table 4-1 and repeated here.
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Here is the plot. R squared is 1.0 because we only have two failures. The expected usage for 1 year is 1000 hours for each pump or 83.3 hours per month. Select the Abernethy Risk icon.
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To make a failure forecast click on the Abernethy Risk Icon which is here.
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Enter Usage = 83.3 hours per month and click on the Green Check
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What does this tell us? Expect 2.3 failures in the next year. Expect the next failure in four months. The Now Risk is 2.5, close to the observed number 2, so a batch problem is not indicated. In five years expect 14 failures.
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Summary
• We have illustrated how to input data, failures and suspensions, obtain MRR and MLE plots, add confidence bounds, do a distribution analysis and a failure forecast.
• We hope we have helped introduce you to Weibull Analysis and we would be pleased if you would send us your questions and/or comments.
• Bob Abernethy …[email protected]