Rychlá predikce efektů povrchových nerovností v EHL kontaktech za prokluzu

Rapid Prediction of Roughness Effects in Sliding EHL Contacts

článek ve sborníku ve WoS nebo Scopus

en

The surface roughness represents an important issue from many tribological aspects for several decades. Roughness features in elasohydrodynamically lubricated (EHL) contacts substantially affect minimum film thickness, pressure distribution and thus have a great influence on friction, wear and fatigue life. However, surface roughness deforms inside contact and its omission can be oversimplification of the problem. Therefore, it is important to be able predict effects connected with surface roughness to design surface pattern performance. The amplitude attenuation theory provide rapid tool to obtain roughness deformation and associated pressure fluctuations. It is based on the description of essential harmonic surface components with given amplitude and wavelength. This study further extends the model under rolling-sliding conditions with the aim present the complete and simple definition. The possibilities of the model are shown on practical case of surface indentation effects in EHL contacts. The model was compared with experiments on high pressure ball-on-disk optical tribometer.

Drsnost povrchu představuje významný problém z mnoha tribologických hledisek. Povrchové nerovnosti podstatně ovlivňují funkci elasohydrodynamicky mazaného (EHL) kontaktu. Mají souvislost s minimální tloušťkou mazacího filmu a rozložením tlaku; tím májí velký vliv na tření, opotřebení a únavový život. Tato studie dále rozšiřuje model obecného popisu elastické deformace povrchových nerovností pro podmínky prokluzu s cílem představit kompletní a jednoduchou definici. Možnosti modelu jsou uvedeny na praktickém případu vtisku na kontaktním povrchu. Model byl porovnán s výsledky experimentu na optickém tribometru.

The surface roughness represents an important issue from many tribological aspects for several decades. Roughness features in elasohydrodynamically lubricated (EHL) contacts substantially affect minimum film thickness, pressure distribution and thus have a great influence on friction, wear and fatigue life. However, surface roughness deforms inside contact and its omission can be oversimplification of the problem. Therefore, it is important to be able predict effects connected with surface roughness to design surface pattern performance. The amplitude attenuation theory provide rapid tool to obtain roughness deformation and associated pressure fluctuations. It is based on the description of essential harmonic surface components with given amplitude and wavelength. This study further extends the model under rolling-sliding conditions with the aim present the complete and simple definition. The possibilities of the model are shown on practical case of surface indentation effects in EHL contacts. The model was compared with experiments on high pressure ball-on-disk optical tribometer.

amplitude attenuation theory; elastic deformation

2013

09.05.2013

Society of Tribologists and Lubrication Engineers

Detroit

978-1-62993-289-7

Society of Tribologists & Lubrication Engineers Annual Meeting & Exhibition 2013 / Proceedings of a meeting held 5-9 May 2013, Detroit, Michigan, USA.

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180–182

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