Thingiverse
Squared Cube Origami 3D Print
di BYU_CMR
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### Summary
This model demonstrates a means of folding rigid, thick panels into a compact, near-cubic form. The design is based on Dr. Robert J. Lang's recent publication: "Squaring the Cube: Efficiently Stowed Deployable Mechanisms With Thick Rectangular Payload Panels".
### Printing Instructions
This model needs to be printed at 0.1mm layer height (any typical nozzle diameter should be fine) and should be printed with a 60 degree infill direction, and a 120 degree bridge direction. This gives your hinges the best shot at being strong during repeated folding. Also, this model needs to be printed flat side down! You should not need any supports for this one.
### Learn More
This design was developed by the Compliant Mechanisms and Robotics Group (CMR) from Brigham Young University (BYU). Follow us at [@byucmr](https://www.instagram.com/byucmr) on Instagram, (@CompliantMechanismsResearchGroup](https://www.facebook.com/CompliantMechanismsResearchLab) on Facebook, or visit the [BYU Co
This model demonstrates a means of folding rigid, thick panels into a compact, near-cubic form. The design is based on Dr. Robert J. Lang's recent publication: "Squaring the Cube: Efficiently Stowed Deployable Mechanisms With Thick Rectangular Payload Panels".
### Printing Instructions
This model needs to be printed at 0.1mm layer height (any typical nozzle diameter should be fine) and should be printed with a 60 degree infill direction, and a 120 degree bridge direction. This gives your hinges the best shot at being strong during repeated folding. Also, this model needs to be printed flat side down! You should not need any supports for this one.
### Learn More
This design was developed by the Compliant Mechanisms and Robotics Group (CMR) from Brigham Young University (BYU). Follow us at [@byucmr](https://www.instagram.com/byucmr) on Instagram, (@CompliantMechanismsResearchGroup](https://www.facebook.com/CompliantMechanismsResearchLab) on Facebook, or visit the [BYU Co
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