Very Well presented. keep up with the good work. I would like hear more about the consideration of the friction coefficient values (11:22). Any reference would help further, in determining those values.
Thank you for your feedback. It always helps to listen and learn from dedicated students like you. Thank you for your interest. Please fill out this form: bit.ly/3AwKLXI, and a member of our team will reach out to you at the earliest.
I like your video. Why did you linearize the stresses in the bolt? The bolt is uniaxial stressed. Actually, in SolidWorks Simulation we don't model the bolt, we apply the bolt as a constraint defined in SolidWorks Simulation already, then SolidWorks reports the bolt load.
Very Well presented. keep up with the good work.
I would like hear more about the consideration of the friction coefficient values (11:22). Any reference would help further, in determining those values.
Thank you for your feedback. It always helps to listen and learn from dedicated students like you. Thank you for your interest. Please fill out this form: bit.ly/3AwKLXI, and a member of our team will reach out to you at the earliest.
I like your video.
Why did you linearize the stresses in the bolt? The bolt is uniaxial stressed.
Actually, in SolidWorks Simulation we don't model the bolt, we apply the bolt as a constraint defined in SolidWorks Simulation already, then SolidWorks reports the bolt load.
Superb efforts excellent sir
what is b and m in bolt load in 6:12
Excelent explanation
How come the Bolt PCD is 1272 mm and OD of flange is 1248 mm??
This is me . Pls give credits @skillync.
Thanks for bringing this up! We've updated the video with proper credits for your project. Appreciate your great work!