Finite Element Analysis of Adhesive Contact Behaviors in Elastoplastic and Viscoelastic Media

Juncheng Luo; Jianhua Liu; Huanxiong Xia; Xiaohui Ao; Zhihao Fu; Jing Ni; Hao Huang

doi:10.1007/s11249-023-01809-1

Finite Element Analysis of Adhesive Contact Behaviors in Elastoplastic and Viscoelastic Media

Juncheng Luo, Jianhua Liu, Huanxiong Xia^*, Xiaohui Ao, Zhihao Fu, Jing Ni, Hao Huang

^*Corresponding author for this work

School of Mechanical Engineering

Beijing Institute of Technology

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

5 Citations (Scopus)

Abstract

This paper developed a finite element model based on the Derjaguin approximation and the Lennard–Jones potential to describe a single loading-remaining-unloading cycle of adhesive contact in elastoplastic and viscoelastic media. The effects of tangent modulus, the Prony coefficient, and the times on the adhesive contact behaviors were examined. Some complicated phenomena on rate-dependent adhesion in viscoelastic media and history-dependent adhesion in elastoplastic media were understood. The simulation results showed that both the pull-off force and final central gap were negatively correlated with tangent modulus while positively with the Prony coefficient; the pull-off force and the final central gap synchronously rose as the loading time or the remaining time increased; the effect of the remaining time on the pull-off force is stronger than the loading time.

Original language	English
Article number	7
Journal	Tribology Letters
Volume	72
Issue number	1
DOIs	https://doi.org/10.1007/s11249-023-01809-1
Publication status	Published - Mar 2024

Keywords

Adhesive contact
Finite element modeling
Lennard–Jones potential
Pull-off force

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10.1007/s11249-023-01809-1

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title = "Finite Element Analysis of Adhesive Contact Behaviors in Elastoplastic and Viscoelastic Media",

abstract = "This paper developed a finite element model based on the Derjaguin approximation and the Lennard–Jones potential to describe a single loading-remaining-unloading cycle of adhesive contact in elastoplastic and viscoelastic media. The effects of tangent modulus, the Prony coefficient, and the times on the adhesive contact behaviors were examined. Some complicated phenomena on rate-dependent adhesion in viscoelastic media and history-dependent adhesion in elastoplastic media were understood. The simulation results showed that both the pull-off force and final central gap were negatively correlated with tangent modulus while positively with the Prony coefficient; the pull-off force and the final central gap synchronously rose as the loading time or the remaining time increased; the effect of the remaining time on the pull-off force is stronger than the loading time.",

keywords = "Adhesive contact, Finite element modeling, Lennard–Jones potential, Pull-off force",

author = "Juncheng Luo and Jianhua Liu and Huanxiong Xia and Xiaohui Ao and Zhihao Fu and Jing Ni and Hao Huang",

note = "Publisher Copyright: {\textcopyright} 2023, The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.",

year = "2024",

month = mar,

doi = "10.1007/s11249-023-01809-1",

language = "English",

volume = "72",

journal = "Tribology Letters",

issn = "1023-8883",

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T1 - Finite Element Analysis of Adhesive Contact Behaviors in Elastoplastic and Viscoelastic Media

AU - Luo, Juncheng

AU - Liu, Jianhua

AU - Xia, Huanxiong

AU - Ao, Xiaohui

AU - Fu, Zhihao

AU - Ni, Jing

AU - Huang, Hao

PY - 2024/3

Y1 - 2024/3

N2 - This paper developed a finite element model based on the Derjaguin approximation and the Lennard–Jones potential to describe a single loading-remaining-unloading cycle of adhesive contact in elastoplastic and viscoelastic media. The effects of tangent modulus, the Prony coefficient, and the times on the adhesive contact behaviors were examined. Some complicated phenomena on rate-dependent adhesion in viscoelastic media and history-dependent adhesion in elastoplastic media were understood. The simulation results showed that both the pull-off force and final central gap were negatively correlated with tangent modulus while positively with the Prony coefficient; the pull-off force and the final central gap synchronously rose as the loading time or the remaining time increased; the effect of the remaining time on the pull-off force is stronger than the loading time.

AB - This paper developed a finite element model based on the Derjaguin approximation and the Lennard–Jones potential to describe a single loading-remaining-unloading cycle of adhesive contact in elastoplastic and viscoelastic media. The effects of tangent modulus, the Prony coefficient, and the times on the adhesive contact behaviors were examined. Some complicated phenomena on rate-dependent adhesion in viscoelastic media and history-dependent adhesion in elastoplastic media were understood. The simulation results showed that both the pull-off force and final central gap were negatively correlated with tangent modulus while positively with the Prony coefficient; the pull-off force and the final central gap synchronously rose as the loading time or the remaining time increased; the effect of the remaining time on the pull-off force is stronger than the loading time.

KW - Adhesive contact

KW - Finite element modeling

KW - Lennard–Jones potential

KW - Pull-off force

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DO - 10.1007/s11249-023-01809-1

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SN - 1023-8883

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JO - Tribology Letters

JF - Tribology Letters

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ER -

Finite Element Analysis of Adhesive Contact Behaviors in Elastoplastic and Viscoelastic Media

Abstract

Keywords

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