- Видео 48
- Просмотров 145 150
Nature Architects Inc.
Япония
Добавлен 8 окт 2019
Shell metamaterials that deform out-of-plane with in-plane loading
Shell metamaterials that deform out-of-plane with in-plane loading.
These structures are patented in "Nature Architects, inc.".
These structures are patented in "Nature Architects, inc.".
Просмотров: 762
Видео
A monolithic foldable hanger by compliant mechanisms
Просмотров 786Год назад
We design a monolithic foldable hanger by using compliant mechanisms. We explain details of this design method in our tech blog. ↓ nature-architects.com/blog/1388/
Non-parametric shape optimization for minimizing strain energy.
Просмотров 406Год назад
We design innovative automotive components with lots of optimization methods. This is one of the example of our optimization design.
Crane: An Integrated Computational Design Platform for Origami Products
Просмотров 4,2 тыс.Год назад
What if you want to design origami products? Yout'll need to consider... "Functionality" as a working product, "Foldability" as origami, and "Fabricability" as a manufacturable object ... all at the same time. We propose "Crane", a computational design platform by which users can seamlessly achieve such requirements. Crane is implemented as a Rhino Grasshopper plugin and available from food4rhi...
Lightweight heat exchanger manufactured by a metal 3D printer using the DFM design solution.
Просмотров 4,1 тыс.2 года назад
Lightweight heat exchanger manufactured by a metal 3D printer using the DFM design solution.
A honeycomb made of Engineering plastic(polypropylene) deforms into a target double curved surface.
Просмотров 4962 года назад
A honeycomb made of Engineering plastic(polypropylene) deforms into a target double curved surface.
Compliant Mechanisms made of a wood (CLT)
Просмотров 9132 года назад
Compliant Mechanisms made of a wood (CLT)
Products using Metamaterials from Nature Architects.
Просмотров 1,5 тыс.2 года назад
Products using Metamaterials from Nature Architects.
曲がるけど伸びないバネ(Springs that bend but do not stretch)
Просмотров 5012 года назад
曲がるけど伸びないバネ(Springs that bend but do not stretch)
DFM TOUCH:効果的な振動伝達を実現する設計ソリューションDesign solutions for effective vibration control
Просмотров 1,1 тыс.2 года назад
DFM TOUCH:効果的な振動伝達を実現する設計ソリューションDesign solutions for effective vibration control
1-DOF curved surface deformation panels
Просмотров 3882 года назад
1-DOF curved surface deformation panels
Patented scissors mechanism without parts assembly(組立不要のシザース構造)
Просмотров 5332 года назад
Patented scissors mechanism without parts assembly(組立不要のシザース構造)
Auxetic(Negative Poisson's Ratio) Structure.
Просмотров 19 тыс.2 года назад
Auxetic(Negative Poisson's Ratio) Structure.
未来をひらく窓ーGaudí Meets 3D Printing:「風が巡る窓」
Просмотров 7812 года назад
未来をひらく窓ーGaudí Meets 3D Printing:「風が巡る窓」
DFM PULSE:バネ・ゴムを使わない防振設計ソリューション (Solution for vibration isolation without rubber & spring.)
Просмотров 4,7 тыс.2 года назад
DFM PULSE:バネ・ゴムを使わない防振設計ソリューション (Solution for vibration isolation without rubber & spring.)
ダンパーレスバネ:サージングが発生しない防振構造 (Damperless Spring: Anti-vibration structure without surging)
Просмотров 3,2 тыс.2 года назад
ダンパーレスバネ:サージングが発生しない防振構造 (Damperless Spring: Anti-vibration structure without surging)
DFM Explorerで形状設計・解析・製造を横断して最適な設計を実現する
Просмотров 8133 года назад
DFM Explorerで形状設計・解析・製造を横断して最適な設計を実現する
溶接なしで板金に動きをデザインするNature Architectsの設計技術
Просмотров 2,7 тыс.3 года назад
溶接なしで板金に動きをデザインするNature Architectsの設計技術
LUCA : The Interface integrates between grasshopper and simulation
Просмотров 7143 года назад
LUCA : The Interface integrates between grasshopper and simulation
World's first mechanical metamaterials that transform into preprogrammed curved surfaces.
Просмотров 7 тыс.3 года назад
World's first mechanical metamaterials that transform into preprogrammed curved surfaces.
DFM Designing for integration of multiple functions into headphone
Просмотров 1,1 тыс.3 года назад
DFM Designing for integration of multiple functions into headphone
Universal Flex Joints without assembly by DFM
Просмотров 4 тыс.4 года назад
Universal Flex Joints without assembly by DFM
Direct Functional Modeling -- Computational Design Method for Advanced Functional Products --
Просмотров 11 тыс.4 года назад
Direct Functional Modeling Computational Design Method for Advanced Functional Products
Spinka Circle
064 Caitlyn Gateway
Ada Stream
7095 Madge Center
Zieme Village
669 Davis Pine
Moises Mount
Satterfield Island
29903 Dandre Springs
Marks Hollow
Paige Trafficway
Prohaska Overpass
Okuneva Causeway
Emmy Oval
Amara Park
Alphonso Via
Pfannerstill Glen
Christophe Wells
Alfonso Flats
Effertz Rest
4309 Royal Canyon
3735 Ruth View
69964 Larry Mission
Octavia Meadow
Hank Gateway
Beer Summit
Hegmann Villages
I thought it's only in the theories but damn I was so blind
音声が良い!
beautiful
What happens when you try to stretch it?
using this as reference for a project, thanks a ton!!
do you have any tutorials to explain the constraints in detail and how they work? i'm having trouble using some of them
I have the same question as you
Stl available?
File?
What is that material?
this music is awesome
Thank you very much for the super interesting presentation. It is very exciting to follow your company at the forefront of creation and innovation. Great graphics. Thank you.
I've tried 3D printing flexures in the past and they quickly failed. I discovered one reason is I was printing in PLA. You need a flexible material like TPU, PP, PC etc. especially if the movement is concentrated in a small length of flexure.
you can make some elastic ones with pla as well. You need like 0.4 or eventually 0.8 thick elemnts, and if you model something along 0:46 left one, that will be printed in a way the printer will do elastic in one run, it will be quite elastic. Just had printed part bended it over ~100 times and its still fine, if I don't exceed the maximum strenght it actually is quite durable :)
This is so cool!
That is cool, glad to see these constraint optimization tools meet origami.
Great 🤍😌😌😌✨
堺さん🌝
p̶r̶o̶m̶o̶s̶m̶
任意の情報を触覚情報に置換する知覚拡張のための符号化ツールか。これは助かる。
設計ソリューションって結局なんなんだろ。設計性のある解決?
terrific implementation keep the origami based innovations coming!!
Can you tell me what material you used?
Someone know what kind of material could be?
難しいお話でしたが、非常にワクワクしてしまいました!