Deployable Structure
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- Опубліковано 28 вер 2022
- A deployable structure is a structure that can reconfigure and change shape/size mainly from folding and unfolding, and has many applications from daily essentials (e.g., umbrella), vascular stents, to solar panels for spacecraft.
Origami, the art of paper folding, thus naturally provides inspirations for deployable structures.
In addition to deployable structures, origami recently has gained much attention as it has offered an appealing strategy on the development of 3D architectures across different length scales and metamaterials with tunable properties.
Many origami-inspired deployable structures are based on rigid origami patterns, in which the kinematic deformation is solely limited to the folding lines while the panels remain undeformed.
Well-known representatives of deployable rigid origami patterns are the Miura folding and its derivates.
In addition to rigid origami, another type is deformable origami, where the panels and the folding lines all bear deformation, such as the twisted square pattern.
Due to the simplicity of the kinematics of rigid origami, much attention has been focused on this type.
Despite recent active research in origami and related deployable structures, a critical aspect of the origami research that has been overlooked is whether the deployed structure remains in a deployed state under loading, such as vibration experienced by a deployed structure used in spacecraft.
Video Source:
1- • Deployable Structure ...
Deployable Structure Summer Workshop IFAC 2015 / UA-cam / SMiA Research Group
2-vimeo.com/67433791?login=true
Desert Lotus: Expanding Dome / Vimeo / Mike Burton
3- • Deployable Structures ...
Deployable Structures Workshop SMiA - AGU / UA-cam/ SMiA Research Group
4- • Chuck Hoberman Archéol...
Chuck Hoberman Archéologie du numérique / UA-cam/ Guillaume Sanfaçon
5- • Chuck Hoberman 01
Chuck Hoberman 01 / UA-cam/ Yukio Andoh
6- • Torus4 Pavilion SMiA-UIC
Torus4 Pavilion SMiA-UIC/ UA-cam/ SMiA Research Group
7- • Xuê Dining hall pavil...
Xuê Dining hall pavilion. / UA-cam/ SMiA Research Group
8- • Hoberman20Years_High.mov
Hoberman20Years_High.mov / UA-cam /Vidz
9- • On Elastic Geodesic Gr...
On Elastic Geodesic Grids and Their Planar to Spatial Deployment / UA-cam / derprzem
10- • DTS - Deployable Tent ...
DTS - Deployable Tent Structure/ UA-cam / Gustaf Ridderström
11- • Maqueta estructura des...
Maqueta estructura desplegable, mayo 2009. Arquit. Rodrigo Ramos / UA-cam/ ARKIDES Deployable Structures
12- • Domo Desplegable Oct/2016
Deployable structures /UA-cam/ CF Tailer
13- • Deployable Pavilion_tr...
Deployable Pavilion_transtudio 2018_Instructor: Negar Kalantar _Texas A&M_Department of Architecture / UA-cam / Negar Kalantar
14- • How a Harvard Professo...
How a Harvard Professor Makes Transforming Toys & Designs | WIRED / UA-cam /WIRED
15- • Torus12 Pavilion - Dep...
Torus12 Pavilion - Deployable Structures - Nottingham Trent University / UA-cam /SMiA Research Group
16- • Design Development Dep...
Design Development Deployable Dome Pavilion / UA-cam/ Erin Hunt
17- • Vertex II Pavilion - D...
Vertex II Pavilion - Deployable Structure Presented at IASS Barcelona 2019 / UA-cam/ SMiA Research Group
18- • SPATIAL GROUPING OF SY...
SPATIAL GROUPING OF SYMMETRYCAL STRAIGHT SCISSORS / UA-cam/ SMiA Research Group
19- • angulated scissors str...
angulated scissors structure / UA-cam / 林妹妹
Image Source:
[1]-Chuck Hoberman with expanding aluminum sphere
www.cca.qc.ca/en/search/detai...
[2]-Deployable Structures / evajermyn / evajermyn
evajermyn.com/2012/05/28/depl...
[3]-Deployable structures / cargocollective / University of Pennsylvania
cargocollective.com/pixelstik...
[4]-deployable geodesic dome - Expo 5 / architizer / IA- INTELLIGENT SYSTEM IN ARCHITECTURE, Former AEWّ
architizer.com/projects/deplo...
[5]-Computers in Theory and Practice / architectural-review
www.architectural-review.com/...
[6]-Honoring Architecture's Digital Pioneers / archdaily / Greg Lynn
www.archdaily.com/429862/hono...
[7]-Math Monday: Flexible Stick Structures / momath / Bradford Hansen-Smith
momath.org/home/math-monday-f...
More info👇
parametrichouse.com/deployabl...
More info👇
parametrichouse.com/deployable-structure2
Oh, this is the part that for me was a turning point in the knowledge of the grasshopper! As part of the Advanced Computer-aided Design course at my university, I made a Hoberman sphere for a solo project.
It was interesting to discover that there is no material for creating this kind of 3D objects (Or I just didn't search well, heh). But this topic seems to be very relevant, especially in the context of the development of origami / kirigami facades.
This is a device and a toy. It’s a good exercise for architecture and engineering. But the structural stability of these are quite compromised due to the high number of moving pieces. The maintenance of these structures could be a real nightmare.
come on guys give as some tutorial on how to do this in grasshopper
Holi, De pronto encontraste el tutorial?
❤️❤️❤️👍
🙌
Thank you for all your efforts. I hope you will explain to us some examples and how to accomplish them, if you find the time. Some of your followers do not have money or are from countries that do not allow cash exchange online and benefit from your free videos. But be sure that your efforts are worth money and praise. Your North African follower salutes you
You're qelcome
We have several tutotials on mechanisms but sure in the future we will try to record a more comprehensive one about deployable structures