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Batch solving in Mecway
Hello! Quick question: What is the current recommended best practice for batch solving Mecway files?
I need to tune the contact coefficients for a hyperelastic simulation and figured it would be best done by trying out a few values in a batch solution.
It seems command line and python both might be options? Are there any pre-made scripts that I could download off the forum?
I need to tune the contact coefficients for a hyperelastic simulation and figured it would be best done by trying out a few values in a batch solution.
It seems command line and python both might be options? Are there any pre-made scripts that I could download off the forum?
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Click the appropriate CCX "don't includes" to suppress your contact commands
Use Table to capture key outputs.
Include a "save model to" as well.
Create an input.inp that includes your contact commands.
Run using Mecway command line solve
Review results in CSV output
With a little scripting, you can see that this has the makings of a black box that you can loop through.
A) The Python scripting is probably no use because you can't use it to set contact stiffness yet.
Make a copy of the file for each parameter value like
model1.liml
model2.liml
etc...
In each one, add a Analysis -> new Save after solve with a unique filename.
then from the models' directory, solve them all with
\progra~1\mecway\mecway13\mecway model*.liml solve
It's probably easier to edit the .liml files with a text editor to set the save filename and parameter values.
C) Configurations
Add a Edit -> New configuration for each parameter value, then select each configuration's tab in turn and create a contact with its parameters. By default, it'll be suppressed in all the other configurations. Then use Solution -> Solve all configurations. But beware the UI will freeze and it will look like it's crashed so keep an eye on the CCX files to see the progress instead.
This puts all the solutions in the same file so be careful it doesn't get unwieldy if it's a big model with many time steps and configurations.
Neither B or C really save any time, they just move the tedious work of setting parameters to the front so you can do it in a single sitting. JohnM's suggestion sounds like it would scale up easier to large number of parameters or doing this many times.
In my particular use case moving the tedious work of setting parameters to the front in a single sitting works since models take an hour or two to solve so far.
The attached model is a simple contact test that expects a file called input.inp.
The model outputs a file called out.csv
Create a run.bat using the following inputs:
echo off
echo *CONTACT PAIR,INTERACTION=SI_1,TYPE=SURFACE TO SURFACE > input.inp
echo surf2,surf1 >> input.inp
echo *SURFACE INTERACTION,NAME=SI_1 >> input.inp
echo *SURFACE BEHAVIOR,PRESSURE-OVERCLOSURE=LINEAR >> input.inp
echo %1 >> input.inp
"C:\Program Files\Mecway\Mecway13\mecway.exe" batchtrick.liml solve
echo %1 >> summary.out
type out.csv >> summary.out
echo *END* >> summary.out
That inputs are a simple modified cut-and-paste of the .inp file generated by Mecway:
With batchtrick.liml and run.bat in the same directory, open a cmd window and execute:
run.bat 2E9
run.bat 2E10
run.bat 2E11
run.bat 2E12
This will create summary.out
2e9
"Time step","Time","Node","external force Y"
7,1,4,-6.98674
7,1,8,-6.98674
7,1,20,-14.8995 *END*
2e10
"Time step","Time","Node","external force Y"
7,1,4,-37.1805
7,1,8,-37.1805
7,1,20,-79.2053 *END*
2e11
"Time step","Time","Node","external force Y"
7,1,4,-66.2353
7,1,8,-66.2353
7,1,20,-139.919 *END*
2e12
"Time step","Time","Node","external force Y"
7,1,4,-73.9428
7,1,8,-73.9428
7,1,20,-154.243 *END*
This method is a basic starting point. It can be made very powerful once you get the hang of it.
John I'm also trying to figure out your method because it looks like it might be really useful in the future. But I'm having a problem trying to get it to work.
If I suppress all of these below and manually solve it in Mecway then I can get an out.csv file
However if I unsuppress them and then try to solve it using "run.bat 2E9" from cmd, for example, it doesn't generate an out.csv file at all (and doesn't have a solution when I open it). Also tried "run.bat 2000000000", didn't seem to do anything.
The .bat file I have has the following code:
echo off echo *CONTACT PAIR,INTERACTION=SI_1,TYPE=SURFACE TO SURFACE > input.inp echo surf2,surf1 >> input.inp echo *SURFACE INTERACTION,NAME=SI_1 >> input.inp echo *SURFACE BEHAVIOR,PRESSURE-OVERCLOSURE=LINEAR >> input.inp echo %1 >> input.inp "C:\Program Files\Mecway\Mecway13\mecway.exe" batchtrick.liml solve echo %1 >> summary.out type out.csv >> summary.out echo *END* >> summary.outThe output when I run the above .bat file is as follows:
And the generated input file has the following code:
*CONTACT PAIR,INTERACTION=SI_1,TYPE=SURFACE TO SURFACE surf2,surf1 *SURFACE INTERACTION,NAME=SI_1 *SURFACE BEHAVIOR,PRESSURE-OVERCLOSURE=LINEAR 2E9Do you know what might be the issue and how I could fix it? I've just used the same batchtrick.liml file from your post.
Thanks a ton for your help so far, John and Victor!
The custom model definition in the original model is:
*INCLUDE,file=input.inpIgnore everything above, it seems to work fine now.
AND... it turns out the issue was configuration specific to my machine, something about storing it in an unencrypted folder on an encrypted drive but without "entering the keys" made things go a bit wonky (even though I can normally access those files in other programs/through windows explorer).If someone else has issues running John's example I guess make sure the input file is accessible by Mecway. (Whoops...)
Win some loose some, hah. Thanks for the help John and Victor!
For doing coefficient fitting with hyperelastic materials, I have found a neat (and free) piece of software that can be useful for this. It is called Optimax and it can be downloaded here:
http://lace.fs.uni-mb.si/wordpress/borovinsek/?page_id=104
Download the latest revision, and also the documentation. There is an example problem that shows how to determine the value of material properties to match a test. We use the same approach for matching test data to determine the C01 and C10 in hyperelastic models, it works great.
We set up a model in Mecway, then save the CCX input file for use in Optimax. This hasn't replaced my run.bat approach, but it has its uses.
That's really interesting, do you mean you perform experiments on parts that you have, recreate those experiments in Mecway, and use that to figure out the material coefficients C01 and C10?
Would you be able to share an example?
I contacted a few test labs and thought getting material samples tested was the only way to get the coefficients, but would be really excited if there's easier ways.
I've been relying on the kindness of some stranger on a solidworks forum who uploaded an Excel sheet with coefficients that I've been using to get results that I would hope might be in some ballpark. I've attached it here in case it helps anyone in the future.
Take a look on the picture attached, the Optimax screen capture is the one used to made that analysis.
For example, an O-ring would be loaded in compression, but an inflatable membrane would be pressurized like a balloon, to simulate the biaxial tension. Then measure the load-deflection curve in test. You will likely need a load cell and/or a regulated pressure supply, and/or accurate deflection gage, depending on the test.
Model this exact set-up in Mecway, capture the CCX input file and make variables out of your coefficients, then match curves using Optimax.
Good luck!