76 / 2020-09-25 14:42:42
Molecular dynamics simulation of ceramic polyolefin for fire resistant cable
Fire resistant cable; Ceramic polyolefin; Molecular dynamics simulation; Material selection.
Draft Rejected
Changlong Yang / State Grid Shenyang Power Supply Company
Min Gong / Chongqing Taishan Cable Co. Ltd
Fan Yang / Chongqing university
Jiaming Liang / Chongqing university
Peng Jin / State Grid Liaoning Electric Power Co. Ltd
In order to study the mechanism of high temperature environment’s influence on the mechanical properties and interparticle interactions of ceramic polymer materials for fire-resistant cables, the equivalent models of three ceramic polyolefin formulations were established according to the distribution proportion of each material. With the assistance of molecular simulation software, molecular dynamics simulation was carried out from the microcosmic point of view. The results show that with the increase of temperature, the intermolecular interaction weakens, the bulk modulus decreases, the shear modulus decreases, and the fractional free volume increases. The formulation with the most significant intermolecular interaction at high temperature, the formulation with the largest mechanical modulus at the same temperature and the formulation with the slowest increase of fractional free volume with temperature’s increase is the mixture system of ceramic ethylene butene copolymer and 28% EVA. The simulation results can provide reference for the selection of polyolefin ceramic materials for fire resistant cables.

 
Important Date
  • Conference Date

    Nov 02

    2020

    to

    Nov 04

    2020

  • Oct 27 2020

    Draft paper submission deadline

  • Nov 03 2020

    Contribution Submission Deadline

  • Nov 04 2020

    Registration deadline

  • Nov 17 2020

    Final Paper Deadline

Sponsored By
IEEE IAS Student Chapter of Huazhong University of Science and Technology (HUST)
Organized By
Huazhong University of Science and Technology
Contact Information