Influence of force chains behaviors on strength of al/w/ptfe granular composite

Le Tang; Die Hu; Sheng Zhou; Chao Ge; Haifu Wang; Juan Liu

doi:10.4028/www.scientific.net/SSP.324.94

Influence of force chains behaviors on strength of al/w/ptfe granular composite

Le Tang, Die Hu, Sheng Zhou, Chao Ge^*, Haifu Wang, Juan Liu

^*Corresponding author for this work

School of Mechatronical Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Mesoscale simulation is conducted to investigate the effect of force chains between metal particles on the mechanical behavior of aluminum-tungsten-polytetrafluoroethylene (Al/W/PTFE) granular composite under a strain-controlled loading. A two-dimensional model followed the random distribution of particles is developed. Dynamic simulations are performed with variations in the size of Al particles to reveal the strength and fracture mechanisms of the composites. The results indicate that, force chains governed by the number and the size of metal particles significantly affects the global compressive response and macro-cracks propagation. The stability and reconstruction of mesoscale force chains explain the phenomenon that a higher strength is observed in the material with fine Al particles. Combined with the angle between particles, we examine the properties of force chains and the network as they evolve during the course of the deformation. Findings indicate that reactive composites tend to produce shorter chains, and straighter force chains with a smaller force angle result in a macroscopically stronger granular material.

Original language	English
Title of host publication	Material Engineering and Manufacturing IV
Editors	Akira Toriumi, Takashige Omatsu
Publisher	Trans Tech Publications Ltd.
Pages	94-99
Number of pages	6
ISBN (Print)	9783035718591
DOIs	https://doi.org/10.4028/www.scientific.net/SSP.324.94
Publication status	Published - 2021
Event	5th International Conference on Material Engineering and Manufacturing, ICMEM 2021, the 4th International Conference on Materials Design and Applications, ICMDA 2021, and the 5th International Conference on Materials Engineering and Nano Sciences, ICMENS 2021 - Chiba, Japan Duration: 16 Apr 2021 → 19 Apr 2021

Publication series

Name	Solid State Phenomena
Volume	324 SSP
ISSN (Print)	1012-0394
ISSN (Electronic)	1662-9779

Conference

Conference	5th International Conference on Material Engineering and Manufacturing, ICMEM 2021, the 4th International Conference on Materials Design and Applications, ICMDA 2021, and the 5th International Conference on Materials Engineering and Nano Sciences, ICMENS 2021
Country/Territory	Japan
City	Chiba
Period	16/04/21 → 19/04/21

Keywords

Al/W/PTFE
Force chains
Granular composite
Mesoscale simulation

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10.4028/www.scientific.net/SSP.324.94

Cite this

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title = "Influence of force chains behaviors on strength of al/w/ptfe granular composite",

abstract = "Mesoscale simulation is conducted to investigate the effect of force chains between metal particles on the mechanical behavior of aluminum-tungsten-polytetrafluoroethylene (Al/W/PTFE) granular composite under a strain-controlled loading. A two-dimensional model followed the random distribution of particles is developed. Dynamic simulations are performed with variations in the size of Al particles to reveal the strength and fracture mechanisms of the composites. The results indicate that, force chains governed by the number and the size of metal particles significantly affects the global compressive response and macro-cracks propagation. The stability and reconstruction of mesoscale force chains explain the phenomenon that a higher strength is observed in the material with fine Al particles. Combined with the angle between particles, we examine the properties of force chains and the network as they evolve during the course of the deformation. Findings indicate that reactive composites tend to produce shorter chains, and straighter force chains with a smaller force angle result in a macroscopically stronger granular material.",

keywords = "Al/W/PTFE, Force chains, Granular composite, Mesoscale simulation",

author = "Le Tang and Die Hu and Sheng Zhou and Chao Ge and Haifu Wang and Juan Liu",

note = "Publisher Copyright: {\textcopyright} 2021 Trans Tech Publications Ltd, Switzerland.; 5th International Conference on Material Engineering and Manufacturing, ICMEM 2021, the 4th International Conference on Materials Design and Applications, ICMDA 2021, and the 5th International Conference on Materials Engineering and Nano Sciences, ICMENS 2021 ; Conference date: 16-04-2021 Through 19-04-2021",

year = "2021",

doi = "10.4028/www.scientific.net/SSP.324.94",

language = "English",

isbn = "9783035718591",

series = "Solid State Phenomena",

publisher = "Trans Tech Publications Ltd.",

pages = "94--99",

editor = "Akira Toriumi and Takashige Omatsu",

booktitle = "Material Engineering and Manufacturing IV",

address = "Switzerland",

}

Tang, L, Hu, D, Zhou, S, Ge, C , Wang, H & Liu, J 2021, Influence of force chains behaviors on strength of al/w/ptfe granular composite. in A Toriumi & T Omatsu (eds), Material Engineering and Manufacturing IV. Solid State Phenomena, vol. 324 SSP, Trans Tech Publications Ltd., pp. 94-99, 5th International Conference on Material Engineering and Manufacturing, ICMEM 2021, the 4th International Conference on Materials Design and Applications, ICMDA 2021, and the 5th International Conference on Materials Engineering and Nano Sciences, ICMENS 2021, Chiba, Japan, 16/04/21. https://doi.org/10.4028/www.scientific.net/SSP.324.94

Influence of force chains behaviors on strength of al/w/ptfe granular composite. / Tang, Le; Hu, Die; Zhou, Sheng et al.
Material Engineering and Manufacturing IV. ed. / Akira Toriumi; Takashige Omatsu. Trans Tech Publications Ltd., 2021. p. 94-99 (Solid State Phenomena; Vol. 324 SSP).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Influence of force chains behaviors on strength of al/w/ptfe granular composite

AU - Tang, Le

AU - Hu, Die

AU - Zhou, Sheng

AU - Ge, Chao

AU - Wang, Haifu

AU - Liu, Juan

PY - 2021

Y1 - 2021

N2 - Mesoscale simulation is conducted to investigate the effect of force chains between metal particles on the mechanical behavior of aluminum-tungsten-polytetrafluoroethylene (Al/W/PTFE) granular composite under a strain-controlled loading. A two-dimensional model followed the random distribution of particles is developed. Dynamic simulations are performed with variations in the size of Al particles to reveal the strength and fracture mechanisms of the composites. The results indicate that, force chains governed by the number and the size of metal particles significantly affects the global compressive response and macro-cracks propagation. The stability and reconstruction of mesoscale force chains explain the phenomenon that a higher strength is observed in the material with fine Al particles. Combined with the angle between particles, we examine the properties of force chains and the network as they evolve during the course of the deformation. Findings indicate that reactive composites tend to produce shorter chains, and straighter force chains with a smaller force angle result in a macroscopically stronger granular material.

AB - Mesoscale simulation is conducted to investigate the effect of force chains between metal particles on the mechanical behavior of aluminum-tungsten-polytetrafluoroethylene (Al/W/PTFE) granular composite under a strain-controlled loading. A two-dimensional model followed the random distribution of particles is developed. Dynamic simulations are performed with variations in the size of Al particles to reveal the strength and fracture mechanisms of the composites. The results indicate that, force chains governed by the number and the size of metal particles significantly affects the global compressive response and macro-cracks propagation. The stability and reconstruction of mesoscale force chains explain the phenomenon that a higher strength is observed in the material with fine Al particles. Combined with the angle between particles, we examine the properties of force chains and the network as they evolve during the course of the deformation. Findings indicate that reactive composites tend to produce shorter chains, and straighter force chains with a smaller force angle result in a macroscopically stronger granular material.

KW - Al/W/PTFE

KW - Force chains

KW - Granular composite

KW - Mesoscale simulation

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U2 - 10.4028/www.scientific.net/SSP.324.94

DO - 10.4028/www.scientific.net/SSP.324.94

M3 - Conference contribution

AN - SCOPUS:85119347308

SN - 9783035718591

T3 - Solid State Phenomena

SP - 94

EP - 99

BT - Material Engineering and Manufacturing IV

A2 - Toriumi, Akira

A2 - Omatsu, Takashige

PB - Trans Tech Publications Ltd.

T2 - 5th International Conference on Material Engineering and Manufacturing, ICMEM 2021, the 4th International Conference on Materials Design and Applications, ICMDA 2021, and the 5th International Conference on Materials Engineering and Nano Sciences, ICMENS 2021

Y2 - 16 April 2021 through 19 April 2021

ER -

Influence of force chains behaviors on strength of al/w/ptfe granular composite

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