The tree-shell is probably the hardest structure to make with inversive geometry because it requires the structure to 'conspire' to meet along a line or curve. Other structures such as cluster-trees and tree-sponges only require single points to meet.
Ideally I'd like to find one that is nowhere differentiable, in particular that every surface patch contains approximations of the whole structure under conformal transformations.
However due to the difficulty in this post I'll make one that is mainly smooth spherical surfaces. Nevertheless, it makes for a nice looking shape.
It is based on the 2D tree-solid from a previous post, but extended to 3D, and looks like this:
The method is a replacement fractal under Mobius transformations. There are three types of structure being used. Each type is constructed from a combination of the types as shown:
Type 0:
Apart from the making a nowhere differentiable tree-shell (which would have a very different construction) I think there is probably a way to improve the above structure...
Notice the type 2 shape in the bottom image, the rightmost limb is significantly bigger than the limb next to it. That's because we use only three types, one meets the parent sphere at an angle of zero (the big one) and the others meet at an angle of 45 degrees.
I think it may be possible to interpolate between the small limb (left) and the big limb (right) so the meeting angle gradually drops to zero.
