More newspaper weaving! This attempt was more successful I think. I decided to go with Christmas colours, since anyway, these decorations were for Christmas.
For these bells, I rolled newspaper tubes (about 150 in total), split them into 2, used acrylic colours mixed with glue and water to paint the 2 sets and allowed the tubes to dry completely.
Once the tubes were dry, as with my last attempt, I used a bell form and wove these ornaments. The woven bells were themselves quite robust, but to add a little shine and sturdiness, I coated them with polyurethene. Allowed to dry and lo and behold, 2 beautiful ornaments ready for Christmas!
Model Details:
Model: Woven Christmas Bell
Origin: Traditional
Difficulty Level: Low Intermediate
Model Size: ~5 inches tall
Model: Woven Christmas Bell
Origin: Traditional
Difficulty Level: Low Intermediate
Model Size: ~5 inches tall
Tutorial (making newspaper tubes): Youtube
Newspaper
Weaving is one art that fascinates me, though till date, I have not
been very good at it. But for this year's Christmas, I decided to try
some ornaments using weaving. And this Christmas bell is one of my first
attempts.
For this bell, I first rolled newspaper tubes, colored them using acrylic paints, wove the bell using a form and finally coated with polyurethane.
Lots of work, but I am loving it!
Model Details:
Model: Woven Christmas Bell
Origin: Traditional
Difficulty Level: Low Intermediate
Model Size: ~5 inches tall
For this bell, I first rolled newspaper tubes, colored them using acrylic paints, wove the bell using a form and finally coated with polyurethane.
Lots of work, but I am loving it!
Model Details:
Model: Woven Christmas Bell
Origin: Traditional
Difficulty Level: Low Intermediate
Model Size: ~5 inches tall
Every once in a while, I get obsessed with an origami design and keep making it again and again. My last one was Dasa Severova's Origami Woven Star, a modular star made from 16 units.
I tried the model with ombré shades of green, blue and pink and would have continued if I had managed to get my hands on more colours!!
The design is simple and works well with small squares - I had used 3 inch squares and this resulted in a star of about 5.5 inches diameter. The star is also very stable and the units lock well, so no glue required.
Model Details:
Model: Woven Star
Creator: Dasa Severova
Difficulty Level: Low Intermediate
Paper Ratio: Square
Paper Size: 3 inches
Model Size: ~5.5 inches in diameter
Modules: 16
Tutorial: How to fold the units, How to join the units
I tried the model with ombré shades of green, blue and pink and would have continued if I had managed to get my hands on more colours!!
The design is simple and works well with small squares - I had used 3 inch squares and this resulted in a star of about 5.5 inches diameter. The star is also very stable and the units lock well, so no glue required.
Model Details:
Model: Woven Star
Creator: Dasa Severova
Difficulty Level: Low Intermediate
Paper Ratio: Square
Paper Size: 3 inches
Model Size: ~5.5 inches in diameter
Modules: 16
Tutorial: How to fold the units, How to join the units
After completing my last 2 Tomoko Fuse designs made from 120 units each, I decided to try one of her simpler models - this simple open frame cube, made from 12 square units.
I have used 3 colours and 4 units of each colour. The squares had a side of 4 inches and the end result was a frame of about 3 inches.
Model Details:
Model: Open Frame - Cube
Creator: Tomoko Fuse
Book: Unit Origami
Difficulty Level: Low Intermediate
Paper Ratio: Square
Paper Size: 4 inches
Model Size: ~3 inches in diameter
Modules: 12
Tutorial: Youtube
Recently, I purchased the book 'Geometric Origami' by Faye G. Goldman. The book contains various models based on Heinz Strobl's Snapology method.
A few years back, I had tried my first snapology origami and made an icosahedron. And now with the purchase of this book, I decided to work on the model titled 'Egg'. It was interesting for me because it was the only asymmetrical model in the book. On completing the project, I think it will make a good Easter egg. Maybe one can add some chocolates inside the egg - though I have no clue how we can get them out!!
The principal for the Egg Snapology remains the same and requires a total of 2 squares, 8 pentagons and 16 flower-like units, assembled from 6 triangles. The 2 squares form the top and bottom of the egg. The flower units surround the 4 arms of the square and the 8 pentagons.
I had used 1-inch quilling strips for the whole project, so while theoretically the egg was an easy project, the size of the strips made it pretty challenging for me. On a side note, kudos to all the origamists who make tiny, micro origami!
Model Details:
Model: Snapology Egg
Creator: Heinz Strobl
Book: Geometric Origami
Author: Faye Goldman
Difficulty Level: High Intermediate
Paper Ratio: 1-inch quilling strips
Model Size: ~4 inches in diameter
A few years back, I had tried my first snapology origami and made an icosahedron. And now with the purchase of this book, I decided to work on the model titled 'Egg'. It was interesting for me because it was the only asymmetrical model in the book. On completing the project, I think it will make a good Easter egg. Maybe one can add some chocolates inside the egg - though I have no clue how we can get them out!!
The principal for the Egg Snapology remains the same and requires a total of 2 squares, 8 pentagons and 16 flower-like units, assembled from 6 triangles. The 2 squares form the top and bottom of the egg. The flower units surround the 4 arms of the square and the 8 pentagons.
I had used 1-inch quilling strips for the whole project, so while theoretically the egg was an easy project, the size of the strips made it pretty challenging for me. On a side note, kudos to all the origamists who make tiny, micro origami!
Model Details:
Model: Snapology Egg
Creator: Heinz Strobl
Book: Geometric Origami
Author: Faye Goldman
Difficulty Level: High Intermediate
Paper Ratio: 1-inch quilling strips
Model Size: ~4 inches in diameter
Since in recent days, I have been trying out many modular origami. I wanted to try out the inverse of the previous model I had folded - the 120-unit rhombic icosahedron using Tomoko Fuse's double-sided convex hexagonal rings. This time, I had used concave modules. As before, this one is also made of 120 modules.
This model turned out to be one of my most challenging. Mainly because this was like assembling the model upside down! And initially quite a few times, I started assembling the pieces as I would a regular icosahedron, with the cones pointing out. Then I had to undo and reassemble correctly. A lot of painful rework! Also, as the assembly progressed, I found that there were a few instances when I just couldn't get that little tab (the one that inserts into the adjourning section?) in place. Finally, I just gave up, but the model is so tight that there is no way the pieces will slip out. I can even use it as a football I think :)
Model Details:
Model: Double-sided Concave Hexagonal Ring 120 unit Rhombic Icosahedron
Creator: Tomoko Fuse
Book: Unit Polyhedron Origami
Author: Tomoko Fuse
Difficulty Level: Complex
Paper Ratio: Rectangle in ratio 1:2
Paper Size: 3.4 inches by 1.7 inches
Model Size: ~4 inches in diameter
Modules: 120
This model turned out to be one of my most challenging. Mainly because this was like assembling the model upside down! And initially quite a few times, I started assembling the pieces as I would a regular icosahedron, with the cones pointing out. Then I had to undo and reassemble correctly. A lot of painful rework! Also, as the assembly progressed, I found that there were a few instances when I just couldn't get that little tab (the one that inserts into the adjourning section?) in place. Finally, I just gave up, but the model is so tight that there is no way the pieces will slip out. I can even use it as a football I think :)
Model Details:
Model: Double-sided Concave Hexagonal Ring 120 unit Rhombic Icosahedron
Creator: Tomoko Fuse
Book: Unit Polyhedron Origami
Author: Tomoko Fuse
Difficulty Level: Complex
Paper Ratio: Rectangle in ratio 1:2
Paper Size: 3.4 inches by 1.7 inches
Model Size: ~4 inches in diameter
Modules: 120