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

doi:10.4233/uuid:9b46e18b-1fa3-4517-a666-660e4a50f18e

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

Doctoral Thesis (2016)

Research Group

Emerging Materials

Copyright

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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https://doi.org/10.4233/uuid:9b46e18b-1fa3-4517-a666-660e4a50f18e

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Publication Year

2016

Language

English

Copyright

Research Group

Emerging Materials

ISBN (electronic)

978-94-6186-739-1

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