Design from 2D to 3D via additive manufacturing
Additive manufacturing technology has enabled the creation of intricate designs that transform from 2D to 3D structures. One popular application of this technology is through the use of origami tessellations, which involves repeating geometric shapes on a single flat plane without any gaps or overla...
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2023
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sg-ntu-dr.10356-1659722023-11-29T08:17:35Z Design from 2D to 3D via additive manufacturing Goh, Di Kai Huang Weimin School of Mechanical and Aerospace Engineering MWMHuang@ntu.edu.sg Engineering::Manufacturing::Flexible manufacturing systems Additive manufacturing technology has enabled the creation of intricate designs that transform from 2D to 3D structures. One popular application of this technology is through the use of origami tessellations, which involves repeating geometric shapes on a single flat plane without any gaps or overlaps. This form of art is being integrated into geodesic concepts in today's design models. A prototype has been created that integrates the Elastic Geodesic Grid (EGG) and the Maura-Ori origami design using 3D printing to create a dome-like shape. This report considers these qualities and proposes a design that is not only stable but is also able to be 3D printed as a whole, and without additional assembly. In particular, a geodesic structure that allows for a 3D change to a model, by relying on a material malleable quality, and a force being applied to it that results in structural buckling. This report will also explore the different design models available such as a tessellation designs and how they may be incorporated and implemented in the reconfigurable structure. Bachelor of Engineering (Mechanical Engineering) 2023-04-17T07:10:40Z 2023-04-17T07:10:40Z 2023 Final Year Project (FYP) Goh, D. K. (2023). Design from 2D to 3D via additive manufacturing. Final Year Project (FYP), Nanyang Technological University, Singapore. https://hdl.handle.net/10356/165972 https://hdl.handle.net/10356/165972 en P-A032 application/pdf Nanyang Technological University |
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Engineering::Manufacturing::Flexible manufacturing systems Goh, Di Kai Design from 2D to 3D via additive manufacturing |
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Additive manufacturing technology has enabled the creation of intricate designs that transform from 2D to 3D structures. One popular application of this technology is through the use of origami tessellations, which involves repeating geometric shapes on a single flat plane without any gaps or overlaps. This form of art is being integrated into geodesic concepts in today's design models. A prototype has been created that integrates the Elastic Geodesic Grid (EGG) and the Maura-Ori origami design using 3D printing to create a dome-like shape. This report considers these qualities and proposes a design that is not only stable but is also able to be 3D printed as a whole, and without additional assembly. In particular, a geodesic structure that allows for a 3D change to a model, by relying on a material malleable quality, and a force being applied to it that results in structural buckling. This report will also explore the different design models available such as a tessellation designs and how they may be incorporated and implemented in the reconfigurable structure. |
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Huang Weimin |
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Huang Weimin Goh, Di Kai |
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Final Year Project |
author |
Goh, Di Kai |
author_sort |
Goh, Di Kai |
title |
Design from 2D to 3D via additive manufacturing |
title_short |
Design from 2D to 3D via additive manufacturing |
title_full |
Design from 2D to 3D via additive manufacturing |
title_fullStr |
Design from 2D to 3D via additive manufacturing |
title_full_unstemmed |
Design from 2D to 3D via additive manufacturing |
title_sort |
design from 2d to 3d via additive manufacturing |
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Nanyang Technological University |
publishDate |
2023 |
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https://hdl.handle.net/10356/165972 |
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1783955530641833984 |