In the 1990's, I tried to build paper models of the sub-set that is mirror-symmetric (i.e., not including the objects without mirror symmetry, the snub polyhedra). I used mostly the nets in Magnus Wenninger's "Polyhedron Models" (Cambridge). And I almost finished the whole set! However, some of the more complex models proved to be too tedious, though, and I had other things to worry about. 3-D printing might be the way to do eventually finish this collection.

Fig. 1: I made these 60 uniform polyhedra in the later 90's. These are in my parents' house in Portugal. This set includes the
models of the regular and quasi-regular polyhedra displayed in my office, but on a smaller scale.

The following pictures show how they used to hang from the ceiling of the room.

In these pictures, all triangles are red, all squares are green, all pentagons are dark blue, all hexagons are yellow, all octagons are pink, all decagons are light blue, all pentagrams are gold, all octagrams are a lighter shade of pink and all decagrams are brown. These are the colors used in Roman Maeder's website. If a uniform polyhedron has a single type of face (i.e., a single color in this collection) then by definition it is regular.

Some of the complex, non-convex polyhedra with icosahedral symmetry.

The image above shows mainly Archimedean
polyhedra with icosahedral symmetry. Among these are two regular
polyhedra: the icosahedron (all in red) and the dodecahedron (all in
dark blue).

The convex Uniform polyhedra: the five regular Platonic polyhedra and the
13 Uniform Archimedean polyhedra.

A severe polyhedral storm!

Fly through the
paulyhedra! This is a 144 MB movie, so it takes time to download.

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