Edgar J. Kaiser
Certified Consultant
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Posted:
5 years ago
2020年4月16日 GMT-4 15:43
Marcel,
I think you could use two subsequent time dependent steps. A first one with small time steps to resolve the laser pulse and a second one with longer time steps for the rest.
Take the final result of the first time dependent step as initial condition for the second.
Cheers
Edgar
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Edgar J. Kaiser
emPhys Physical Technology
www.emphys.com
Marcel,
I think you could use two subsequent time dependent steps. A first one with small time steps to resolve the laser pulse and a second one with longer time steps for the rest.
Take the final result of the first time dependent step as initial condition for the second.
Cheers
Edgar
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Posted:
5 years ago
2020年4月17日 GMT-4 03:41
Hello Edgar,
Thank you for your prompt reply.
I've already tried two time steps. The problem is that I have to look at the laser pulse for 0.1 s and during this time I cannot currently use any longer time steps because the pulse is then no longer recognized. For the cooling phase after drilling, I agree to work with different time steps. My problem is only the 0.1 s for the hole.
Best regards
Marcel
Hello Edgar,
Thank you for your prompt reply.
I've already tried two time steps. The problem is that I have to look at the laser pulse for 0.1 s and during this time I cannot currently use any longer time steps because the pulse is then no longer recognized. For the cooling phase after drilling, I agree to work with different time steps. My problem is only the 0.1 s for the hole.
Best regards
Marcel
Friedrich Maier
COMSOL Employee
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Posted:
5 years ago
2020年4月17日 GMT-4 04:18
Updated:
5 years ago
2020年4月17日 GMT-4 04:20
Dear Marcel,
there are varous possibilites you can try to control such models.
1: Use two study steps in your study. The first time dependent step with a small time resolution to capture the laser pulse and the second time dependent step with larger time stepping to capture the heat transfer
2: You can enter several sequential ranges e.g. range(0,0.001,.01) range(.02,.01,.1) in your times settings intervals. Please note that it could be important to control the time stepping:
https://www.comsol.com/support/knowledgebase/1254
3: You can benefit from the events interface.
https://www.comsol.com/support/knowledgebase/1245
Finally, if you have access to a COMSOL Multiphysics license under subscription please do not hesitate to contact the comsol support for such questions: https://www.comsol.de/support
Kind regards
Friedrich
Dear Marcel,
there are varous possibilites you can try to control such models.
1: Use two study steps in your study. The first time dependent step with a small time resolution to capture the laser pulse and the second time dependent step with larger time stepping to capture the heat transfer
2: You can enter several sequential ranges e.g. range(0,0.001,.01) range(.02,.01,.1) in your times settings intervals. Please note that it could be important to control the time stepping:
https://www.comsol.com/support/knowledgebase/1254
3: You can benefit from the events interface.
https://www.comsol.com/support/knowledgebase/1245
Finally, if you have access to a COMSOL Multiphysics license under subscription please do not hesitate to contact the comsol support for such questions: https://www.comsol.de/support
Kind regards
Friedrich