Showing posts with label Polyhedron Origami. Show all posts
Showing posts with label Polyhedron Origami. Show all posts

The Icosahedral Kit is yet another of the Polyhedron kits from Miyuki Kawamura's book 'Polyhedron Origami'. In this modular origami, 2 kinds of modules are used - the Edge module and the Vertex module. The icosahedron kit is made from a total of 12 vertex modules and 30 edge modules - a grand total of 42 modules.

Double-sided paper works best, since the back of the vertices are visible through all those gaps. The modules are fairly easy to fold and assemble. I used glue as a precaution, but it is not absolutely needed. The size of the paper that I had used was 3 inches and it resulted in a fairly big icosahedron - about 6 inches in diameter.

Model Details:

Model: Icosahedron Kit

Creator: Miyuki Kawamura

Book: Polyhedron Origami

Author: Miyuki Kawamura

Difficulty Level: High Intermediate

Paper Ratio: Square

Paper Size: 3 inches

Model Size: 6 inches diameter

Number of Modules: 42

Tutorial: Youtube

The dodecahedron kit is a part of a series of similar kits from the book 'Polyhedron Origami', by Miyuki Kawamura. The other kits in the series include the Edge Module, Tetrahedron, Octahedron and Icosahedron kits.

Each of these kits are made up of 2 kinds of modules - the vertex modules (which forms the corners of the polyhedron) and the edge modules (which connects 2 vertex modules). The vertex module is different for different polyhedra, with changes in the angle and in the number of arms radiating from it.

The dodecahedron kit is made from 50 modules - 20 dodecahedron vertex modules and 30 edge modules. The vertex modules have 3 radiating arms, so are connected to 3 edge modules. 5 such vertex modules link together to form 1 face of the dodecahedron. 12 such faces are joined together to form the dodecahedron.

I found it an interesting piece to fold and might also fold the other kits if possible. The only disappointment for me was that I had used single-sided paper. And when folding the vertex modules, a little of the white can be seen at the back. I didn't think much of it till I started assembling the piece and realised that, since it is a structure with a lot of big windows, the back of the modules are also visible - as can be seen in the pic! So, if you are folding this, remember to use paper coloured on both sides, at least for the vertex modules.

The model is pretty stable but if you are going to move it around a lot, then I suggest a dab of glue at the joints. Else the vertex modules tend to put out of the edge modules. And another thing, remember to use fairly small paper. I used squares of 2.5 inches and ended up with a model that measured about 7 inches across.

Model Details:

Model: Dodecahedron Kit

Creator: Miyuki Kawamura

Book: Polyhedron Origami

Author: Miyuki Kawamura

Difficulty Level: High Intermediate

Paper Ratio: Square

Paper Size: 2.5 inches

Model Size: 7 inches diameter

Number of Modules: 50

After making origami prisms in the previous post, it seemed natural to try out the antiprisms next. Antiprisms are similar to prisms but the difference is that the side faces are triangles instead of parallelograms. Also, the top and bottom parts are twisted, relative to each other.

For these antiprisms, I used 3.5 inch squares - 3 squares for the triangular antiprism, 4 for the quadrilateral one, 5 for the pentagonal antiprism and 6 for the last one. The model isn't very stable though, and requires a dab of glue to hold it well in place.

A variation to the prisms gives a slightly different shape, when the sides are creased in. This gives a multi-sided star shape - like the 3-sided star and the pentagonal star in the pic.

This modular origami is again from Miyuki Kawamura's book - ‘Polyhedron Origami'.

Model Details:

Model: Antiprisms

Book: Polyhedron Origami

Author: Miyuki Kawamura

Difficulty Level: Simple

Paper Ratio: Square

Paper Size: 3.5 inches

Model Size: 2 inches in height

Tutorial: Youtube

Prisms in Mathematics are polyhedrons where the top and bottom faces are polygons that are identical. The sides are parallelograms.

I was trying out the prisms from  Miyuki Kawamura's book 'Polyhedron Origami' for beginners. And it turned out to be really simple. Each of the prisms can be done in 10-15 mins in all.

Well, there really isn't much more to say! Give it a go :)


Model Details:

Model: Prisms

Book: Polyhedron Origami

Author: Miyuki Kawamura

Difficulty Level: Simple

Paper Ratio: Square

Paper Size: 4 inches

Model Size: 2 inches in height

Tutorial: Triangular Prism, Square Prism, Hexagonal Prism


The Icosahedral Star is a modular origami from Miyuki Kawamura's book 'Polyhedron Origami'. The star is made from 30 Star Modules. The modules are quite simple to make and can be used to form quite a few other stars as well such as Cube Star, Octahedral Star, Cuboctahedral Star.

Each of the pointed ends in the Icosahedral Star is made from 3 modules. 19 such points are required for the star.

The model isn't very stable though, and does require some glue. It looks good in almost any paper.

Model Details:

Model: Icosahedron Star

Creator: Miyuki Kawamura

Book: Polyhedron Origami

Author: Miyuki Kawamura

Difficulty Level: Low Intermediate

Paper Ratio: Square

Paper Size: 4 inches

Number of Modules: 30