Print Email Facebook Twitter Scoliosis Brace Design: Utilizing Compliant Shell Mechanisms and Primary Compliance Vector Path Optimization Title Scoliosis Brace Design: Utilizing Compliant Shell Mechanisms and Primary Compliance Vector Path Optimization Author Kooistra, Hylke (TU Delft Mechanical, Maritime and Materials Engineering) Contributor Herder, J.L. (mentor) van de Sande, W.W.P.J. (mentor) Kim, Charles J. (mentor) Degree granting institution Delft University of Technology Programme Mechanical Engineering | High-Tech Engineering Date 2019-04-26 Abstract Existing scoliosis braces preclude spinal movement for activities of daily living, which reduces the willingness to wear the brace and treatment success. This work develops a scoliosis brace that meets corrective requirements while retaining patient mobility.The primary compliance vector (PCV) captures the predominant kinematic degree of freedom of a mechanism. Its path describes large deformation mechanism behavior. This work presents a general framework that optimizes the PCV path of compliant shell mechanisms. It refines mechanism shape to satisfy kinematic requirements.This work designs a shell mechanism that circumferences the human torso, that allows for sagittal bending, and transmits corrective forces. The optimization framework refines this mechanism to align the PCV with the sagittal bending axis of the human spine. Subject Compliant Shell MechanismsPCV path optimizationScoliosis To reference this document use: http://resolver.tudelft.nl/uuid:ac7c5756-e9c5-419c-83d4-745943758efa Embargo date 2020-05-01 Part of collection Student theses Document type master thesis Rights © 2019 Hylke Kooistra Files PDF Thesis_Hylke_Kooistra.pdf 44.65 MB Close viewer /islandora/object/uuid:ac7c5756-e9c5-419c-83d4-745943758efa/datastream/OBJ/view