Simulation of heat distribution in particles during micro field-activated sintering by considering electrical concentration and contact resistance

Dan Zhao, Jie Wang, Yi Yang, Gang Yang, Yi Qin, Jian Liu, Deqiang Yin

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

1 Citation (Scopus)

Abstract

Finite element simulations have been conducted to investigate the heat distribution between the particles from contact resistance and current density during the Micro-forming Fields Activated Sintering Technology (Micro-FAST). Results of effect for the arrangement modes of powder particles (Series connection and parallel connection) showed that the electro-heat focusing could be attributed to the remarkable difference of contact resistance between the particles.
LanguageEnglish
Title of host publication4th International Conference on New Forming Technology (ICNFT 2015)
EditorsY. Qin, T.A. Dean , J. Lin, S.J. Yuan, F. Vollerston
Number of pages6
DOIs
Publication statusPublished - 6 Aug 2015
Event4th International Conference on New Forming Technology - Crowne Plaza Glasgow, Glasgow, United Kingdom
Duration: 6 Aug 20159 Aug 2015
http://www.icnft2015.com/ (conference web site)

Publication series

NameMATEC Web of Conferences
PublisherEDP Sciences
Volume21

Conference

Conference4th International Conference on New Forming Technology
Abbreviated titleICNFT2015
CountryUnited Kingdom
CityGlasgow
Period6/08/159/08/15
Internet address

Fingerprint

Contact resistance
Sintering
Powders
Current density
Hot Temperature

Keywords

  • FE simualtions
  • finite element
  • heat distribution
  • contact resistance
  • current density
  • micro-forming
  • sintering
  • powder particles

Cite this

Zhao, D., Wang, J., Yang, Y., Yang, G., Qin, Y., Liu, J., & Yin, D. (2015). Simulation of heat distribution in particles during micro field-activated sintering by considering electrical concentration and contact resistance. In Y. Qin, T. A. Dean , J. Lin, S. J. Yuan, & F. Vollerston (Eds.), 4th International Conference on New Forming Technology (ICNFT 2015) [10004] (MATEC Web of Conferences; Vol. 21). https://doi.org/10.1051/matecconf/20152110004
Zhao, Dan ; Wang, Jie ; Yang, Yi ; Yang, Gang ; Qin, Yi ; Liu, Jian ; Yin, Deqiang. / Simulation of heat distribution in particles during micro field-activated sintering by considering electrical concentration and contact resistance. 4th International Conference on New Forming Technology (ICNFT 2015). editor / Y. Qin ; T.A. Dean ; J. Lin ; S.J. Yuan ; F. Vollerston. 2015. (MATEC Web of Conferences).
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abstract = "Finite element simulations have been conducted to investigate the heat distribution between the particles from contact resistance and current density during the Micro-forming Fields Activated Sintering Technology (Micro-FAST). Results of effect for the arrangement modes of powder particles (Series connection and parallel connection) showed that the electro-heat focusing could be attributed to the remarkable difference of contact resistance between the particles.",
keywords = "FE simualtions, finite element, heat distribution, contact resistance, current density, micro-forming, sintering, powder particles",
author = "Dan Zhao and Jie Wang and Yi Yang and Gang Yang and Yi Qin and Jian Liu and Deqiang Yin",
year = "2015",
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editor = "Y. Qin and {Dean }, T.A. and J. Lin and S.J. Yuan and F. Vollerston",
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Zhao, D, Wang, J, Yang, Y, Yang, G, Qin, Y, Liu, J & Yin, D 2015, Simulation of heat distribution in particles during micro field-activated sintering by considering electrical concentration and contact resistance. in Y Qin, TA Dean , J Lin, SJ Yuan & F Vollerston (eds), 4th International Conference on New Forming Technology (ICNFT 2015)., 10004, MATEC Web of Conferences, vol. 21, 4th International Conference on New Forming Technology, Glasgow, United Kingdom, 6/08/15. https://doi.org/10.1051/matecconf/20152110004

Simulation of heat distribution in particles during micro field-activated sintering by considering electrical concentration and contact resistance. / Zhao, Dan; Wang, Jie; Yang, Yi ; Yang, Gang; Qin, Yi; Liu, Jian; Yin, Deqiang.

4th International Conference on New Forming Technology (ICNFT 2015). ed. / Y. Qin; T.A. Dean ; J. Lin; S.J. Yuan; F. Vollerston. 2015. 10004 (MATEC Web of Conferences; Vol. 21).

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

TY - GEN

T1 - Simulation of heat distribution in particles during micro field-activated sintering by considering electrical concentration and contact resistance

AU - Zhao, Dan

AU - Wang, Jie

AU - Yang, Yi

AU - Yang, Gang

AU - Qin, Yi

AU - Liu, Jian

AU - Yin, Deqiang

PY - 2015/8/6

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N2 - Finite element simulations have been conducted to investigate the heat distribution between the particles from contact resistance and current density during the Micro-forming Fields Activated Sintering Technology (Micro-FAST). Results of effect for the arrangement modes of powder particles (Series connection and parallel connection) showed that the electro-heat focusing could be attributed to the remarkable difference of contact resistance between the particles.

AB - Finite element simulations have been conducted to investigate the heat distribution between the particles from contact resistance and current density during the Micro-forming Fields Activated Sintering Technology (Micro-FAST). Results of effect for the arrangement modes of powder particles (Series connection and parallel connection) showed that the electro-heat focusing could be attributed to the remarkable difference of contact resistance between the particles.

KW - FE simualtions

KW - finite element

KW - heat distribution

KW - contact resistance

KW - current density

KW - micro-forming

KW - sintering

KW - powder particles

UR - http://www.matec-conferences.org/articles/matecconf/abs/2015/02/contents/contents.html

UR - http://www.icnft2015.com/

U2 - 10.1051/matecconf/20152110004

DO - 10.1051/matecconf/20152110004

M3 - Conference contribution book

SN - 9782759818235

T3 - MATEC Web of Conferences

BT - 4th International Conference on New Forming Technology (ICNFT 2015)

A2 - Qin, Y.

A2 - Dean , T.A.

A2 - Lin, J.

A2 - Yuan, S.J.

A2 - Vollerston, F.

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Zhao D, Wang J, Yang Y, Yang G, Qin Y, Liu J et al. Simulation of heat distribution in particles during micro field-activated sintering by considering electrical concentration and contact resistance. In Qin Y, Dean TA, Lin J, Yuan SJ, Vollerston F, editors, 4th International Conference on New Forming Technology (ICNFT 2015). 2015. 10004. (MATEC Web of Conferences). https://doi.org/10.1051/matecconf/20152110004