Investigation of Surface Topography at the End of Running-In Process

Xiang Qian Jiang, Geng Pei Zhang, Xiao Jun Liu, Wen Long Lu

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

Running-in process is an important stage of whole wear process. The irrelevance of surface roughness before and after running-in puzzled the running-in research. However, this conclusion was based on surface roughness derived from the 2D surface profile which does not contain 3D information, and was therefore not complete. In this paper, running-in experiments were conducted to investigate the issue. The results showed that there is no "equilibrium surface topography" similar with equilibrium roughness at the end of running-in process.

Original languageEnglish
Title of host publicationIndustrial Design and Mechanics Power II
Pages564-567
Number of pages4
DOIs
Publication statusPublished - 6 Nov 2013
Event2nd International Conference on Industrial Design and Mechanics Power - Nanjing, China
Duration: 24 Aug 201325 Aug 2013
Conference number: 2

Publication series

NameApplied Mechanics and Materials
Volume437
ISSN (Print)1660-9336
ISSN (Electronic)1662-7482

Conference

Conference2nd International Conference on Industrial Design and Mechanics Power
Abbreviated titleICIDMP 2013
CountryChina
CityNanjing
Period24/08/1325/08/13

Fingerprint

Surface topography
Surface roughness
Wear of materials
Experiments

Cite this

Jiang, X. Q., Zhang, G. P., Liu, X. J., & Lu, W. L. (2013). Investigation of Surface Topography at the End of Running-In Process. In Industrial Design and Mechanics Power II (pp. 564-567). (Applied Mechanics and Materials; Vol. 437). https://doi.org/10.4028/www.scientific.net/AMM.437.564
Jiang, Xiang Qian ; Zhang, Geng Pei ; Liu, Xiao Jun ; Lu, Wen Long. / Investigation of Surface Topography at the End of Running-In Process. Industrial Design and Mechanics Power II. 2013. pp. 564-567 (Applied Mechanics and Materials).
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abstract = "Running-in process is an important stage of whole wear process. The irrelevance of surface roughness before and after running-in puzzled the running-in research. However, this conclusion was based on surface roughness derived from the 2D surface profile which does not contain 3D information, and was therefore not complete. In this paper, running-in experiments were conducted to investigate the issue. The results showed that there is no {"}equilibrium surface topography{"} similar with equilibrium roughness at the end of running-in process.",
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Jiang, XQ, Zhang, GP, Liu, XJ & Lu, WL 2013, Investigation of Surface Topography at the End of Running-In Process. in Industrial Design and Mechanics Power II. Applied Mechanics and Materials, vol. 437, pp. 564-567, 2nd International Conference on Industrial Design and Mechanics Power, Nanjing, China, 24/08/13. https://doi.org/10.4028/www.scientific.net/AMM.437.564

Investigation of Surface Topography at the End of Running-In Process. / Jiang, Xiang Qian; Zhang, Geng Pei; Liu, Xiao Jun; Lu, Wen Long.

Industrial Design and Mechanics Power II. 2013. p. 564-567 (Applied Mechanics and Materials; Vol. 437).

Research output: Chapter in Book/Report/Conference proceedingConference contribution

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AB - Running-in process is an important stage of whole wear process. The irrelevance of surface roughness before and after running-in puzzled the running-in research. However, this conclusion was based on surface roughness derived from the 2D surface profile which does not contain 3D information, and was therefore not complete. In this paper, running-in experiments were conducted to investigate the issue. The results showed that there is no "equilibrium surface topography" similar with equilibrium roughness at the end of running-in process.

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Jiang XQ, Zhang GP, Liu XJ, Lu WL. Investigation of Surface Topography at the End of Running-In Process. In Industrial Design and Mechanics Power II. 2013. p. 564-567. (Applied Mechanics and Materials). https://doi.org/10.4028/www.scientific.net/AMM.437.564