Kinergy: Creating 3D Printable Motion using Embedded Kinetic
By A Mystery Man Writer
Description
Kinergy: Creating 3D Printable Motion using Embedded Kinetic EnergyLiang He, Xia Su, Huaishu Peng, Jeffrey Ian Lipton, Jon E. FroehlichUIST 2022: The ACM Sym
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Huaishu Peng
![Kinergy: Creating 3D Printable Motion using Embedded Kinetic](https://cdn.thingiverse.com/renders/aa/f6/56/0d/be/48e8d2aacf096ae29f3f2e4f07a73288_preview_featured.jpg)
KINETIC SCULPTURE by 3Dadicto - Thingiverse
Linear resistance module. It comprises a flexure slidable along a
![Kinergy: Creating 3D Printable Motion using Embedded Kinetic](https://i1.rgstatic.net/publication/336663441_Ondule_Designing_and_Controlling_3D_Printable_Springs/links/5e31e8da299bf1cdb9fc8bec/largepreview.png)
PDF) Ondulé: Designing and Controlling 3D Printable Springs
![Kinergy: Creating 3D Printable Motion using Embedded Kinetic](https://makingthingssee.com/images/making_things_see_cover.png)
Making Things See: 3D vision with Kinect, Processing, Arduino, and
A straight-beam ortho-planar bounce module can be adjusted with beam
![Kinergy: Creating 3D Printable Motion using Embedded Kinetic](https://d3i71xaburhd42.cloudfront.net/576c418377213603a2398815f4b4a6a71592f569/5-Figure4-1.png)
PDF] Robiot: A Design Tool for Actuating Everyday Objects with Automatically Generated 3D Printable Mechanisms
![Kinergy: Creating 3D Printable Motion using Embedded Kinetic](https://i.ytimg.com/vi/SxoIJpeG3w0/maxresdefault.jpg)
Huaishu Peng
![Kinergy: Creating 3D Printable Motion using Embedded Kinetic](https://wikifab.org/images/thumb/e/ec/Spinning_Kinetic_Sculpture_RGB_schema.png/800px-Spinning_Kinetic_Sculpture_RGB_schema.png)
Spinning Kinetic Sculpture RGB — Wikifab
![Kinergy: Creating 3D Printable Motion using Embedded Kinetic](https://www.researchgate.net/publication/355263794/figure/fig5/AS:1080440500817928@1634608497786/Trusscillator-offers-a-temporary-connector-system-to-help-position-the-edges-for-welding.jpg)
Trusscillator offers a temporary connector system to help position the
![Kinergy: Creating 3D Printable Motion using Embedded Kinetic](https://www.lianghe.me/research/kinergy/thumbnail.jpg)
Liang He HCI Researcher
![Kinergy: Creating 3D Printable Motion using Embedded Kinetic](https://d3i71xaburhd42.cloudfront.net/576c418377213603a2398815f4b4a6a71592f569/8-Figure14-1.png)
PDF] Robiot: A Design Tool for Actuating Everyday Objects with Automatically Generated 3D Printable Mechanisms
![Kinergy: Creating 3D Printable Motion using Embedded Kinetic](https://d3i71xaburhd42.cloudfront.net/6d11bdfb6847e85459d015ed8cc695e17a870ea0/15-Figure27-1.png)
PDF] Romeo: A Design Tool for Embedding Transformable Parts in 3D Models to Robotically Augment Default Functionalities
![Kinergy: Creating 3D Printable Motion using Embedded Kinetic](https://ecdn.teacherspayteachers.com/thumbitem/Make-It-Move-and-learn-about-Physics-3D-Printing-Megabundle-7803858-1657549422/original-7803858-1.jpg)
Make It Move (and learn about Physics): 3D Printing Megabundle by Teach Me 3DP
![Kinergy: Creating 3D Printable Motion using Embedded Kinetic](https://www.researchgate.net/profile/Liang-He-14/publication/360263454/figure/fig4/AS:11431281115763875@1675090627030/A-rotary-bounce-module-can-be-rotated-clockwise-or-counterclockwise-its-stiffness-can-be_Q320.jpg)
A rotary bounce module can be rotated clockwise or counterclockwise
from
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