LulzBot on Twitter: "Have you heard about compliant mechanisms? Instead of printing moving parts like a ball joint to achieve a range of motion. A compliant mechanism achieves motion through elastic body
![Design for Additive Manufactured Compliant Mechanisms – pd|z Product Development Group Zurich | ETH Zurich Design for Additive Manufactured Compliant Mechanisms – pd|z Product Development Group Zurich | ETH Zurich](https://pdz.ethz.ch/research/dnt/variable-impedance-elements/_jcr_content/par/fullwidthimage/image.imageformat.lightbox.444238075.jpg)
Design for Additive Manufactured Compliant Mechanisms – pd|z Product Development Group Zurich | ETH Zurich
LulzBot on Twitter: "Have you heard about compliant mechanisms? Instead of printing moving parts like a ball joint to achieve a range of motion. A compliant mechanism achieves motion through elastic body
LulzBot on Twitter: "Have you heard about compliant mechanisms? Instead of printing moving parts like a ball joint to achieve a range of motion. A compliant mechanism achieves motion through elastic body
![Ultra Thin Pen (Bistable Compliant Mechanism) by FabianVeile | Download free STL model | Printables.com Ultra Thin Pen (Bistable Compliant Mechanism) by FabianVeile | Download free STL model | Printables.com](https://media.printables.com/media/prints/88892/images/940911_921abee6-d9bb-47a3-b220-35117aeda7d5/thumbs/cover/320x240/jpeg/title.webp)
Ultra Thin Pen (Bistable Compliant Mechanism) by FabianVeile | Download free STL model | Printables.com
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