Such a great work. I was having a very hard time learning these things on my own. I wasn't even able to interpret the errors at a greater depth This video really helped me achieve a deeper level of understanding. Thank you so much
A complete course about plasticity and contact? I don't know whether folks in UA are going to enjoy it. But we certainly will cuz we are nerds from TH-cam:)
Hello Dr. Clayton, the psuedo time increment was calculated based on linear terms of Taylor series. I wanted to know, based on number of NR iteration how it is fixing increment size.
hello mr.Pettit, thank you for sharing your lectures here, I have learned a lot from your videos, hope you will also make videos on advanced topics, thanks a lot^^
Thank you for your interest :) I definitely am but not soon. My plan is to create a basic solid mechanics lecture series based off the undergraduate course last semester and then move onto a numerical methods (Newton-Raphson, Euler, etc.) lecture series after. I am hoping to have those done around April so that this summer I will cover advanced solid mechanics topics (Piola-Kirchhoff stress, hyperelasticity, plasticity, etc.) so that is when the plasticity videos will come out. As for advanced FEA videos like contact theory, I have them planned but not sure when I will get around to them. I am working on creating a discord server to share PDF copies my notes and post updates of all future videos :)
@@ClaytonPettit Thank you very much for your detailed reply on your plan for the future coursework Mr. Clayton. Am glad we are able to recieve such quality content here. I will be taking advanced solid mechanics next. Your content is definitely going to help lot of future engineers. :)
hello dear sir, please tell me, how the friction contact element or spring element developed for contact to know the frictional stress between the contact… only considering the frictional contact
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Such a great work. I was having a very hard time learning these things on my own. I wasn't even able to interpret the errors at a greater depth This video really helped me achieve a deeper level of understanding. Thank you so much
A complete course about plasticity and contact? I don't know whether folks in UA are going to enjoy it. But we certainly will cuz we are nerds from TH-cam:)
Thank you for sharing these videos. Could I possibly obtain the PDFs of the presentations?
Really nice lecture, - nice, but not too easy and really well step by step explanation - THANKS A LOT
Hello Dr. Clayton, the psuedo time increment was calculated based on linear terms of Taylor series. I wanted to know, based on number of NR iteration how it is fixing increment size.
hello mr.Pettit, thank you for sharing your lectures here, I have learned a lot from your videos, hope you will also make videos on advanced topics, thanks a lot^^
Can you please make video on concrete plasticity .... thanks for your amazing video
Please let us know, if you are planning for mathematics background of contact and metal plasticity. It would be of great help Mr. Clayton
Thank you for your interest :) I definitely am but not soon. My plan is to create a basic solid mechanics lecture series based off the undergraduate course last semester and then move onto a numerical methods (Newton-Raphson, Euler, etc.) lecture series after. I am hoping to have those done around April so that this summer I will cover advanced solid mechanics topics (Piola-Kirchhoff stress, hyperelasticity, plasticity, etc.) so that is when the plasticity videos will come out. As for advanced FEA videos like contact theory, I have them planned but not sure when I will get around to them. I am working on creating a discord server to share PDF copies my notes and post updates of all future videos :)
@@ClaytonPettit Thank you very much for your detailed reply on your plan for the future coursework Mr. Clayton. Am glad we are able to recieve such quality content here. I will be taking advanced solid mechanics next. Your content is definitely going to help lot of future engineers. :)
hello dear sir, please tell me, how the friction contact element or spring element developed for contact to know the frictional stress between the contact… only considering the frictional contact
Awesome lesson ! Thanks a lot
How do we tie several pieces on one surface?
I followed every step for the second exercise, however after the second step the rigid body fly away for me
😅