A discussion on the capability of X-ray computed tomography for contact mechanics investigations

Feikai Zhang; Jianhua Liu; Xiaoyu Ding; Zhimeng Yang

doi:10.1016/j.triboint.2020.106167

A discussion on the capability of X-ray computed tomography for contact mechanics investigations

Feikai Zhang, Jianhua Liu, Xiaoyu Ding^*, Zhimeng Yang

^*Corresponding author for this work

School of Mechanical Engineering

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

13 Citations (Scopus)

Abstract

The three-dimensional gap distribution and area of true contact significantly affect sealing performance and tribological properties between rough surfaces. Current experimental approaches are limited in their ability to predict the evolution of the gap distribution and real contact area on assembled rough interfaces, particularly on non-transparent surfaces. In our previous study [1], we presented a X-ray computed tomography method to obtain these parameters between non-transparent assembled rough interfaces experimentally. In this study, contacts of higher complexity than in our previous work are studied and accuracy as well as limitations of the experimental method are discussed. Additionally, the experimental procedure and data-processing methods are detailed to help other researchers reproduce this work.

Original language	English
Article number	106167
Journal	Tribology International
Volume	145
DOIs	https://doi.org/10.1016/j.triboint.2020.106167
Publication status	Published - May 2020

Keywords

Area of true contact
Contact mechanics experiment
Three-dimensional gap distribution
X-ray CT

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title = "A discussion on the capability of X-ray computed tomography for contact mechanics investigations",

abstract = "The three-dimensional gap distribution and area of true contact significantly affect sealing performance and tribological properties between rough surfaces. Current experimental approaches are limited in their ability to predict the evolution of the gap distribution and real contact area on assembled rough interfaces, particularly on non-transparent surfaces. In our previous study [1], we presented a X-ray computed tomography method to obtain these parameters between non-transparent assembled rough interfaces experimentally. In this study, contacts of higher complexity than in our previous work are studied and accuracy as well as limitations of the experimental method are discussed. Additionally, the experimental procedure and data-processing methods are detailed to help other researchers reproduce this work.",

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AU - Liu, Jianhua

AU - Ding, Xiaoyu

AU - Yang, Zhimeng

PY - 2020/5

Y1 - 2020/5

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AB - The three-dimensional gap distribution and area of true contact significantly affect sealing performance and tribological properties between rough surfaces. Current experimental approaches are limited in their ability to predict the evolution of the gap distribution and real contact area on assembled rough interfaces, particularly on non-transparent surfaces. In our previous study [1], we presented a X-ray computed tomography method to obtain these parameters between non-transparent assembled rough interfaces experimentally. In this study, contacts of higher complexity than in our previous work are studied and accuracy as well as limitations of the experimental method are discussed. Additionally, the experimental procedure and data-processing methods are detailed to help other researchers reproduce this work.

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KW - Contact mechanics experiment

KW - Three-dimensional gap distribution

KW - X-ray CT

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A discussion on the capability of X-ray computed tomography for contact mechanics investigations

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Keywords

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