Relating profile instrument measurements to the functional performance of rough surfaces.

J. I. McCool

Research output: Contribution to journalArticle

65 Citations (Scopus)

Abstract

An easily programmed method is proposed for translating the rms height (Rq) and rms slope (DELTAq) determined using a profile measuring instrument, into more readily interpreted measures of functional severity such as the density of plastic contacts or the mean real contact pressure. The method involves estimation from the ratio Rq/DELTAq of the exponent k of an assumed power function relation between the profile spectrum and the spatial frequency. Having estimated k, the mean square curvature is computed analytically and used together with Rq and DELTA to determine the three input variables needed for the Greenwood-Williamson microconcontact model. This model is then used to compute, as a function of the separation of two rough surfaces, the contact density, the plastic contact density, the mean load per unit area and the mean load per unit of real contact area. The mean square curvature estimated in this manner is compared to the directly measured mean square curvature for 12 distinct surface types including a bearing ball and the ground inner ring rolling path of a cylindrical roller bearing.

Original languageEnglish (US)
Pages (from-to)264-270
Number of pages7
JournalTRANS. ASME J.TRIBOLOGY
Volume109
Issue number2 , Apr. 1987
StatePublished - Jan 1 1987

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Cylindrical roller bearings
Plastics
Ball bearings
profiles
curvature
plastics
roller bearings
ball bearings
translating
exponents
slopes
rings

All Science Journal Classification (ASJC) codes

  • Mechanics of Materials
  • Mechanical Engineering
  • Surfaces and Interfaces
  • Surfaces, Coatings and Films

Cite this

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abstract = "An easily programmed method is proposed for translating the rms height (Rq) and rms slope (DELTAq) determined using a profile measuring instrument, into more readily interpreted measures of functional severity such as the density of plastic contacts or the mean real contact pressure. The method involves estimation from the ratio Rq/DELTAq of the exponent k of an assumed power function relation between the profile spectrum and the spatial frequency. Having estimated k, the mean square curvature is computed analytically and used together with Rq and DELTA to determine the three input variables needed for the Greenwood-Williamson microconcontact model. This model is then used to compute, as a function of the separation of two rough surfaces, the contact density, the plastic contact density, the mean load per unit area and the mean load per unit of real contact area. The mean square curvature estimated in this manner is compared to the directly measured mean square curvature for 12 distinct surface types including a bearing ball and the ground inner ring rolling path of a cylindrical roller bearing.",
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Relating profile instrument measurements to the functional performance of rough surfaces. / McCool, J. I.

In: TRANS. ASME J.TRIBOLOGY, Vol. 109, No. 2 , Apr. 1987, 01.01.1987, p. 264-270.

Research output: Contribution to journalArticle

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