Effects of Nanoscale Ripple Texture on Friction and Film Thickness in EHL Contacts

Effects of Nanoscale Ripple Texture on Friction and Film Thickness in EHL Contacts

The effects of nanoscale ripple texture on the film thickness and friction in elastohydrodynamically lubricated (EHL) contacts were investigated through ball-on-disc experiments and numerical simulations of line contacts. The texturing was produced by femtosecond LASER irradiations and the ripple te...

Full description

Bibliographic Details
Main Authors: Woloszynski, Tomasz, Touche, T., Podsiadlo, Pawel, Stachowiak, Gwidon, Cayer-Barrioz, J., Mazuyer, D.
Format: Journal Article
Published: Springer 2019
Online Access:http://hdl.handle.net/20.500.11937/74202
_version_ 1848763207482605568
author Woloszynski, Tomasz
Touche, T.
Podsiadlo, Pawel
Stachowiak, Gwidon
Cayer-Barrioz, J.
Mazuyer, D.
author_facet Woloszynski, Tomasz
Touche, T.
Podsiadlo, Pawel
Stachowiak, Gwidon
Cayer-Barrioz, J.
Mazuyer, D.
author_sort Woloszynski, Tomasz
building Curtin Institutional Repository
collection Online Access
description The effects of nanoscale ripple texture on the film thickness and friction in elastohydrodynamically lubricated (EHL) contacts were investigated through ball-on-disc experiments and numerical simulations of line contacts. The texturing was produced by femtosecond LASER irradiations and the ripple texture was in the form of sinusoidal waviness with nanoscale amplitudes and wavelengths. The experimental and numerical results indicate that the orientation of the ripples with respect to the entrainment direction has little to no effect on their capability to form a lubricating film. In the EHL regime, the ripples were found to reduce the central and minimum film thickness by half of their peak-to-peak amplitude as compared to a smooth contact. The transition from EHL to mixed lubrication regime was attributed to micro-EHL effects although the subsequent friction increase was found to be largely due to the onset of asperity contacts. In the mixed lubrication regime, the coefficient of friction was mainly determined by surface roughness and its value increased with an increase in the ripple amplitude.
first_indexed 2025-11-14T10:59:48Z
format Journal Article
id curtin-20.500.11937-74202
institution Curtin University Malaysia
institution_category Local University
last_indexed 2025-11-14T10:59:48Z
publishDate 2019
publisher Springer
recordtype eprints
repository_type Digital Repository
spelling curtin-20.500.11937-742022019-08-27T06:59:25Z Effects of Nanoscale Ripple Texture on Friction and Film Thickness in EHL Contacts Woloszynski, Tomasz Touche, T. Podsiadlo, Pawel Stachowiak, Gwidon Cayer-Barrioz, J. Mazuyer, D. The effects of nanoscale ripple texture on the film thickness and friction in elastohydrodynamically lubricated (EHL) contacts were investigated through ball-on-disc experiments and numerical simulations of line contacts. The texturing was produced by femtosecond LASER irradiations and the ripple texture was in the form of sinusoidal waviness with nanoscale amplitudes and wavelengths. The experimental and numerical results indicate that the orientation of the ripples with respect to the entrainment direction has little to no effect on their capability to form a lubricating film. In the EHL regime, the ripples were found to reduce the central and minimum film thickness by half of their peak-to-peak amplitude as compared to a smooth contact. The transition from EHL to mixed lubrication regime was attributed to micro-EHL effects although the subsequent friction increase was found to be largely due to the onset of asperity contacts. In the mixed lubrication regime, the coefficient of friction was mainly determined by surface roughness and its value increased with an increase in the ripple amplitude. 2019 Journal Article http://hdl.handle.net/20.500.11937/74202 10.1007/s11249-018-1130-y Springer restricted
spellingShingle Woloszynski, Tomasz
Touche, T.
Podsiadlo, Pawel
Stachowiak, Gwidon
Cayer-Barrioz, J.
Mazuyer, D.
Effects of Nanoscale Ripple Texture on Friction and Film Thickness in EHL Contacts
title Effects of Nanoscale Ripple Texture on Friction and Film Thickness in EHL Contacts
title_full Effects of Nanoscale Ripple Texture on Friction and Film Thickness in EHL Contacts
title_fullStr Effects of Nanoscale Ripple Texture on Friction and Film Thickness in EHL Contacts
title_full_unstemmed Effects of Nanoscale Ripple Texture on Friction and Film Thickness in EHL Contacts
title_short Effects of Nanoscale Ripple Texture on Friction and Film Thickness in EHL Contacts
title_sort effects of nanoscale ripple texture on friction and film thickness in ehl contacts
url http://hdl.handle.net/20.500.11937/74202

Similar Items