Question #295035 on Yade changed: https://answers.launchpad.net/yade/+question/295035
VG posted a new comment: Thanks Jerome, that makes sense. @Bruno, > Certainly not. Why would it be "more accurate"?! Sorry for the confusion. What I meant was that if we don't change the value of unp back to zero, then the contact force would be offset by kn*unp even in the subsequent iterations. I did some testing on a simple 2-sphere problem, to better understand the role of this parameter. Following are my take-away. Please correct me if I am wrong. 1. unp simply corresponds to the equilibrium distance between the two spheres, which by default is zero. Or in other words, by default the equilibrium distance between the centers of two spheres is r1 + r2, but it can be modified using this parameter unp. 2. During tensile contact, the penetrationDepth is negative and unp essentially means the same thing in tensile contact as it does in a compressive contact. So, in the third last post here: https://answers.launchpad.net/yade/+question/293295 it should be i.phys.unp = i.geom.penetrationDepth instead of i.phys.unp = 0 #to make the cohesive interaction initially force free even in the tensile regime. Thanks Varun -- You received this question notification because your team yade-users is an answer contact for Yade. _______________________________________________ Mailing list: https://launchpad.net/~yade-users Post to : [email protected] Unsubscribe : https://launchpad.net/~yade-users More help : https://help.launchpad.net/ListHelp
