Bistable Compliant Mechanism - Free 3D Print Model

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BYU CMR

Education>Engineering

IP Report

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P1P

P1S

X1 Carbon

X1E

A1 mini

H2D

H2D Pro

H2S

P2S

H2C

X2D

A2L

0.2mm layer, 2 walls, 15% infill

Designer

1.4 h

1 plate

5.0(5)

Open in Bambu Studio

Boost

146

104

Released

Description

Summary

This bistable compliant mechanism was developed by the BYU Compliant Mechanisms Research group. This model shows the bistable behavior that can be achieved by using a single print compliant mechanism.

The model can either be 3D printed or milled.

Animation

Technical Information

For in-depth technical information, see the following publications:

Zirbel, S.A., Tolman, K.A., Trease, B.P., and L.L. Howell, “Bistable Mechanisms for Space Applications,” PLOS ONE, Vol. 11, No. 12: e0168218, DOI: 10.1371/journal.pone.0168218, 2016.

Gou, Y., Chen, G., Howell, L.L., “A Design Approach to Fully Compliant Multistable Mechanisms Employing a Single Bistable Mechanism,” Mechanics Based Design of Structures and Machines, DOI: 10.1080/15397734.2019.1707685, Vo. 49, No. 7, pp. 986-1009, 2021, published online 2020.

Gomm, T., Howell, L.L., and Selfridge, R.H., “In-Plane Linear-Displacement Bistable Microrelay,” Journal of Micromechanics and Microengineering, Institute of Physics, Vol. 12, pp. 257-264, 2002.

Jensen, B.D., Parkinson, M.B., Kurabayashi, K., Howell, L.L., and Baker, M.S., “Design Optimization of a Fully-Compliant Bistable Micro-Mechanism,” Microelectromechanical Systems (MEMS), at the 2001 ASME International Mechanical Engineering Congress and Exposition, November 2001, IMECE2001/MEMS-23852.

This design was developed by the Compliant Mechanisms Research Group (CMR) from Brigham Young University (BYU). To learn more about compliant mechanisms, see the BYU Compliant Mechanisms Research (CMR) website or these books: Compliant Mechanisms, Handbook of Compliant Mechanisms.

Intellectual Property

The downloadable 3D print files provided here may be used, modified, and enjoyed for noncommercial use. To license this technology for commercial applications, contact:

BYU Technology Transfer Office

3760 Harold B. Lee Library

Brigham Young University

Provo, UT 84602

Phone: (801) 422-6266

https://techtransfer.byu.edu/contact

Patent Information

Bistable Micromechanical Devices
By Messenger, R.K., McLain, T.W., Anderson, J.K., Howell, L.L.
U.S. Patent No. 7,554,342
June 2009

Comment & Rating (6)

License

This user content is licensed under a Standard Digital File License.

You shall not share, sub-license, sell, rent, host, transfer, or distribute in any way the digital or 3D printed versions of this object, nor any other derivative work of this object in its digital or physical format (including - but not limited to - remixes of this object, and hosting on other digital platforms). The objects may not be used without permission in any way whatsoever in which you charge money, or collect fees.