Transient adhesion in a non-fully detached contact

Transient adhesion in a non-fully detached contact

Abstract Continuous approaching and detaching displacement usually occurs in an adhesion test. Here, we found a transient adhesion force at the end of a non-fully detached contact. This force occurred when the nominal detaching displacement was less than the traditional quasi-static theory predicted...

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Main Authors: Zheyu Liu, Hongyu Lu, Yelong Zheng, Dashuai Tao, Yonggang Meng, Yu Tian
Format: Article
Language:English
Published: Nature Publishing Group 2018-04-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-018-24587-6
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spelling doaj-061838574027444cb604670633fa4e392020-12-08T04:44:17ZengNature Publishing GroupScientific Reports2045-23222018-04-01811810.1038/s41598-018-24587-6Transient adhesion in a non-fully detached contactZheyu Liu0Hongyu Lu1Yelong Zheng2Dashuai Tao3Yonggang Meng4Yu Tian5The State Key Laboratory of Tribology, Department of Mechanical Engineering, Tsinghua UniversityThe State Key Laboratory of Tribology, Department of Mechanical Engineering, Tsinghua UniversityThe State Key Laboratory of Tribology, Department of Mechanical Engineering, Tsinghua UniversityThe State Key Laboratory of Tribology, Department of Mechanical Engineering, Tsinghua UniversityThe State Key Laboratory of Tribology, Department of Mechanical Engineering, Tsinghua UniversityThe State Key Laboratory of Tribology, Department of Mechanical Engineering, Tsinghua UniversityAbstract Continuous approaching and detaching displacement usually occurs in an adhesion test. Here, we found a transient adhesion force at the end of a non-fully detached contact. This force occurred when the nominal detaching displacement was less than the traditional quasi-static theory predicted zero force point. The transient adhesion force was ascribed to interfacial adhesion hysteresis, which was caused by the cracking process of the contact and the deformation competition between the sphere and supporting spring. Results indicated that the testing of adhesion can be significantly affected by different combinations of stiffnesses of the contact objects and the supporting spring cantilever. This combination should be carefully designed in an adhesion test. All these results enabled increased understanding of the nature of adhesion and can guide the design of adhesive actuators.https://doi.org/10.1038/s41598-018-24587-6
collection DOAJ
language English
format Article
sources DOAJ
author Zheyu Liu
Hongyu Lu
Yelong Zheng
Dashuai Tao
Yonggang Meng
Yu Tian
spellingShingle Zheyu Liu
Hongyu Lu
Yelong Zheng
Dashuai Tao
Yonggang Meng
Yu Tian
Transient adhesion in a non-fully detached contact
Scientific Reports
author_facet Zheyu Liu
Hongyu Lu
Yelong Zheng
Dashuai Tao
Yonggang Meng
Yu Tian
author_sort Zheyu Liu
title Transient adhesion in a non-fully detached contact
title_short Transient adhesion in a non-fully detached contact
title_full Transient adhesion in a non-fully detached contact
title_fullStr Transient adhesion in a non-fully detached contact
title_full_unstemmed Transient adhesion in a non-fully detached contact
title_sort transient adhesion in a non-fully detached contact
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2018-04-01
description Abstract Continuous approaching and detaching displacement usually occurs in an adhesion test. Here, we found a transient adhesion force at the end of a non-fully detached contact. This force occurred when the nominal detaching displacement was less than the traditional quasi-static theory predicted zero force point. The transient adhesion force was ascribed to interfacial adhesion hysteresis, which was caused by the cracking process of the contact and the deformation competition between the sphere and supporting spring. Results indicated that the testing of adhesion can be significantly affected by different combinations of stiffnesses of the contact objects and the supporting spring cantilever. This combination should be carefully designed in an adhesion test. All these results enabled increased understanding of the nature of adhesion and can guide the design of adhesive actuators.
url https://doi.org/10.1038/s41598-018-24587-6
work_keys_str_mv AT zheyuliu transientadhesioninanonfullydetachedcontact
AT hongyulu transientadhesioninanonfullydetachedcontact
AT yelongzheng transientadhesioninanonfullydetachedcontact
AT dashuaitao transientadhesioninanonfullydetachedcontact
AT yonggangmeng transientadhesioninanonfullydetachedcontact
AT yutian transientadhesioninanonfullydetachedcontact
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