Corus...the problem is that if I have to work on a sphere I don't know how to create two ortogonal planes. I don't have a starting plane on my solid. The boundary is spherical...
Rstupplebeen....I tried but the problem is that then I cannot select separately the two parts. I was able to merge them but at the end I have only one mesh. I cannot select the inner nucleus to assign differetn material properties....
You don't need an existing predefined plane to create a new one, use create data offset from principal plane (ie. offset from the principal planes XY/YZ etc.)
I assign the materials before merging. You may be able to do it later I just haven't. Since you are using a sphere you probably have symmetry planes you can exploit depending on your loading. I hope this helps.
corus....the problem is that to create a partition i can use only planes....
i don't understand how to build a spherical partition inside my sphere....
rstupplebeen...after marging...and in my case i am able to do it only for the mesh...the section assignments disappear....because a new part is created and there are not section assigned...they are lost after merging...
...the only way that i see but it requires a lot of time...is to create after marging a display group taking into account only the inner sphere...but it is not so accurate...the marging procedure leaves gaps at the interfece of the cavity created inside the bigger sphere and the external elements of the inner sphere...
the inner sphere lays in a cavity, with the same dimension, built in the bigger sphere...
Can't see what the problem is with creating planes here as in CAE you simply create principal planes, or a datum plane offset from a principal plane. Create two of them then partition solid with planes, then sketch the smaller arc/circle on the partitioned plane, and revolve. Easy peasy.
The method: I created an emisphere and I used the base to build a sphere part centred on a custom plane.
But I didn't partitioned. I used the function "create solid: revolve".
So I didn't act on the partition but on the part itself.