It is a great pleasure to watch all these high-quality videos. My sincere gratitude for providing such wonderful content. I have a question that I have not been able to find a solution for in any of the videos or other resources. I am seeking guidance on the optimal approach to simulating a hinge for an assembly within the SOL 101 solution type. I'm not intrested of investigate the hinge itself, I just want it to act like a hinge and freely rotated along its axis. I have tried to apply some combination of 1D connections as RBE3 and CBAR etc on the hinge holes of the assembly parts, but its not seems to work well. Your expertise in this matter would be greatly appreciated.
I'm glad you are enjoying the channel. It is not possible to simulate a hinge in SOL 101. A hinge by definition is a large displacement analysis and will require a nonlinear solution. Please see link below to video showing how to create a kinematic connection th-cam.com/video/yhi8cPT3tUU/w-d-xo.htmlsi=FkPb-FST0mntxHF8
It is a great pleasure to watch all these high-quality videos. My sincere gratitude for providing such wonderful content.
I have a question that I have not been able to find a solution for in any of the videos or other resources.
I am seeking guidance on the optimal approach to simulating a hinge for an assembly within the SOL 101 solution type. I'm not intrested of investigate the hinge itself, I just want it to act like a hinge and freely rotated along its axis. I have tried to apply some combination of 1D connections as RBE3 and CBAR etc on the hinge holes of the assembly parts, but its not seems to work well. Your expertise in this matter would be greatly appreciated.
I'm glad you are enjoying the channel. It is not possible to simulate a hinge in SOL 101. A hinge by definition is a large displacement analysis and will require a nonlinear solution. Please see link below to video showing how to create a kinematic connection th-cam.com/video/yhi8cPT3tUU/w-d-xo.htmlsi=FkPb-FST0mntxHF8
Thank you so much for your time!