Computationally efficient analysis & design of optimally compact gear pairs and assessment of gear compliance

Doctoral thesis (2016)

Authors

A. Amani Emerging Materials - IDE
Research Group
Emerging Materials (IDE) (TU Delft)
Copyright: © 2016 A. Amani
DOI
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https://doi.org/10.4233/uuid:9b46e18b-1fa3-4517-a666-660e4a50f18e
Optimization Computational modelling Interference Finite element analysis Compliance Design guidelines Stress analysis Gear design Spur gear Design parameters Pitch compatibility Corner contact Pointed tip Undercutting Non-standard Non-dimensional Highest point of single tooth contact (HPSTC) Bending strength Compact gears Centre distance Deviation Tolerance zone Compact gear drive Bending compliance Foundational compliance Hertzian compliance Non-dimensional modelling Saint-Venant's Principle Cubic Hermitian interpolation
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Published Date

2016

Language

English

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Faculty

Industrial Design Engineering

Department

Sustainable Design Engineering

Research Group

Emerging Materials