Characterization of non-linear compliant shell mechanisms

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Characterization of non-linear compliant shell mechanisms

To enhance the design process of a compliant scoliosis brace

Master Thesis (2018)

Author(s)

J.R. Leemans (TU Delft - Mechanical Engineering)

Contributor(s)

JL Herder – Mentor

W.W.P.J. van de Sande – Mentor

Charles J Kim – Mentor

Faculty

Mechanical Engineering

Copyright

Characterization Non-linear Shell Scoliosis Brace Compliant

To reference this document use:

https://resolver.tudelft.nl/uuid:d94d73b6-7810-4b2e-93a5-1768f7e6eff5

More Info

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Publication Year

2018

Language

English

Copyright

Graduation Date

22-05-2018

Awarding Institution

Delft University of Technology

Faculty

Mechanical Engineering

Reuse Rights

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Abstract

Compliant shell mechanisms utilize spatially curved thin-walled structures to transfer or transmit force, motion or energy through elastic deformation. To design with spatial mechanisms designers need non-linear characterization methods. This work introduces a comprehensive non-linear characterization method and framework which is experimentally validated and applied on promising shell mechanisms, with the objective to enhance the design process of a compliant scoliosis brace.

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