But isn't that what mentioned sample exactly do?
It brakes the torus knot, and then it forms it again, but not in straight - forward way, but they sort of climb to each others and reform the torus knot, in a dynamic way.
Maybe we talk about different sample files.
I mean sample file with the name: tyFlow_recombine_001.max, and it's inside PhysX folder.
I know you're using Particle Physics, and not PhysX, but I assume that with Particle Physics it should be even more simpler (I might be wrong, though), because their collisions are just spherical, and PhysX have more complex (convex) collisions.
It brakes the torus knot, and then it forms it again, but not in straight - forward way, but they sort of climb to each others and reform the torus knot, in a dynamic way.
Maybe we talk about different sample files.
I mean sample file with the name: tyFlow_recombine_001.max, and it's inside PhysX folder.
I know you're using Particle Physics, and not PhysX, but I assume that with Particle Physics it should be even more simpler (I might be wrong, though), because their collisions are just spherical, and PhysX have more complex (convex) collisions.