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Friction and textured surfaces in elastohydrodynamic regime : experimental and numerical investigationsTouche, Thomas 24 October 2016 (has links)
Cette thèse étudie de nouvelles approches pour contrôler le coefficient de frottement dans les contacts en lubrification elastohydrodynamique (EHL) grâce à l'utilisation de surfaces texturées. Par l'expérimentation et la simulation numérique, les phénomènes gouvernants le frottement en EHL sont tout d'abord identifiés, puis l'effet de différentes surfaces texturées (cavités, rainures, ripples) sur le coefficient de frottement est mis en évidence. Les résultats indiquent que le coefficient de frottement peut être contrôlé par l'ajustement adéquat de la géométrie des textures. / This thesis focuses on finding new ways to control the friction coefficient in elastohydrodynamically lubricated (EHL) contacts through the use of surface textures. Experiments and numerical simulations are employed to first identify the governing phenomena responsible for friction in EHL and then to assess the effect of different surface textures (dimples, grooves and ripples) on the friction coefficient. The findings indicate that the coefficient can be controlled by carefully adjusting the texture geometry.
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Mazaní plastových ozubených soukolí / Lubrication of plastic gearsHartl, Petr January 2020 (has links)
The work deals with the process of lubrication of gears from a combination of materials that have significantly different material properties. The experimental measurement is performed on a tribometer in simulated gear contact with a ball-disk configuration. The Chromatic Optical Interferometry method is used to measure the formation of a lubricating film in contact. The purpose of this work is to clarify the process of film thickness formation and compare experimental measurements with predictions, which are valid in Soft EHL regime.
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