Thank you for posting this! I'm trying to simulate damage to 3d printed TPU material and I'm not sure if I have a couple of questions: first, can I use this model with viscoelasticity? second is how do I obtain those three parameters you discussed in the video?
1) can be used for viscoelasticity 2) the calibration of the mullins damage parameters can be performed using ABAQUS and different testing data, I will upload a video on it soon
Thanks a lot for your informative videos. Just one question. What is the best theory for the fatigue life calculation of rubber? Have you ever used FE-Safe or nCode for rubber?
Great Video, Please share some knowledge on how to model hyperelastic hyperbolic materials (like Polyurethane rubber) superelastic Shape Memory Alloy, etc. Thank You
Timecodes:
0:00 - Intro
1:46 - Mullins effect
2:16 - Ogden-Roxburgh model
2:52 - Parameter r
3:38 - Parameter m
4:23 - Parameter ß
Great video!
Thank you for posting this! I'm trying to simulate damage to 3d printed TPU material and I'm not sure if I have a couple of questions: first, can I use this model with viscoelasticity? second is how do I obtain those three parameters you discussed in the video?
1) can be used for viscoelasticity
2) the calibration of the mullins damage parameters can be performed using ABAQUS and different testing data, I will upload a video on it soon
Thanks a lot for your informative videos.
Just one question. What is the best theory for the fatigue life calculation of rubber? Have you ever used FE-Safe or nCode for rubber?
Sry, I am relativley new to rubbers and so on, cant answer your questions yet.
Great Video, Please share some knowledge on how to model hyperelastic hyperbolic materials (like Polyurethane rubber) superelastic Shape Memory Alloy, etc. Thank You
i am working on it.