Annular components are used widely in engineering systems and include bearing bushes and races, which may be exposed to extreme operating conditions. A method to establish the localized transient thermoelastic deformation of a homogeneous two-dimensional annular component is developed. The analysis is based on solving the thermoelasticity equations using a state space formulation for the Fourier components of the radial and tangential displacements. Two boundary conditions are considered, namely, rigid and resiliently mounted outer boundaries, both associated with stress free inner boundary conditions. The thermoelastic solution is then demonstrated for a transient temperature distribution induced by inner boundary frictional heating due to rotor contact, which is derived from a dynamic Hertzian pressure distribution. The application is to a relatively short auxiliary bearing for which a state of plane stress is appropriate. However, the thermoelastic analysis is generalized to cover cases of plane strain and plane stress.
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October 2007
Technical Papers
Annular Component Transient Thermoelastic Analysis Using a State Space Approach
Woon Yik Yong,
Woon Yik Yong
Department of Mechanical Engineering,
University of Bath
, Bath BA2 7AY, United Kingdom
Search for other works by this author on:
Patrick S. Keogh
Patrick S. Keogh
Department of Mechanical Engineering,
e-mail: enspsk@bath.ac.uk
University of Bath
, Bath BA2 7AY, United Kingdom
Search for other works by this author on:
Woon Yik Yong
Department of Mechanical Engineering,
University of Bath
, Bath BA2 7AY, United Kingdom
Patrick S. Keogh
Department of Mechanical Engineering,
University of Bath
, Bath BA2 7AY, United Kingdome-mail: enspsk@bath.ac.uk
J. Tribol. Oct 2007, 129(4): 818-828 (11 pages)
Published Online: March 15, 2007
Article history
Received:
September 21, 2006
Revised:
March 15, 2007
Citation
Yong, W. Y., and Keogh, P. S. (March 15, 2007). "Annular Component Transient Thermoelastic Analysis Using a State Space Approach." ASME. J. Tribol. October 2007; 129(4): 818–828. https://doi.org/10.1115/1.2768082
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