Xevuhtess7
Mechanical
- Feb 21, 2014
- 5
Hello, first post here after many times finding solutions to my problems here.
My model is simple: a pin (flanged on both ends) inside a sleeve. The outer surface of the sleeve is fixed, and the pin's flanges are surface-to-surface glued to the top and bottom of the sleeve. I have a surface-to-surface contact between the pin and inside of the sleeve. Load is a force applied to the pin radially.
In the results (see picture) the pin shrinks radially and both pin and sleeve have very unusual deformation/stress at the flanges. Removing the surface-to-surface contact results in realistic deformation/stress (of course with the pin being pushed through the sleeve due to lack of contact condition)
What could cause things to behave so radially when adding the surface contact condition?
I have had success using surface-to-surface contact on other models, but those involved non-cylindrical geometries. Does the contact condition surrounding the pin on all sides cause a problem?
My model is simple: a pin (flanged on both ends) inside a sleeve. The outer surface of the sleeve is fixed, and the pin's flanges are surface-to-surface glued to the top and bottom of the sleeve. I have a surface-to-surface contact between the pin and inside of the sleeve. Load is a force applied to the pin radially.
In the results (see picture) the pin shrinks radially and both pin and sleeve have very unusual deformation/stress at the flanges. Removing the surface-to-surface contact results in realistic deformation/stress (of course with the pin being pushed through the sleeve due to lack of contact condition)
What could cause things to behave so radially when adding the surface contact condition?
I have had success using surface-to-surface contact on other models, but those involved non-cylindrical geometries. Does the contact condition surrounding the pin on all sides cause a problem?
