![]() the rotation is defined through rigid connector on one side of the pin. I also spotted that when plotting 2nd piola-Kirchoff stress directions the nonrealistic stresses disappears, but with increasing rotation parameter I get increasing stresses where the welding spots between pin and plate are defined, as well as progressively increasing reaction moment with increasing angle of rotation, even though there is no friction defined between pin and bearings. ![]() ![]() I tried with several different ways described in older threads, the best results so far was using parametric solver, of course I included geometric nonlinearity - which option, by the was becomes blended due to contact definition between bin and bearings. The problem is, as I found already in some older threads, that due to large rotation I get high stresses in parts that just rotate freely, such as valve plate itself. The valve itself is a round plate welded on a pin that rotates about 70deg until closed and has bearings on upper and lower side. ![]() I need to study possible lock behavior of a butterfly valve when its housing gets deformed by some force or moment. As i´m quite new to comsol, i would kindly ask for advice here.
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