Research on Irreversible Growth Mechanism of PBX due to Thermal Cycling

Siyang Lei; Shuo Wang; Fangyun Lu; Rong Chen

doi:10.1051/e3sconf/202125701051

All issues

Volume 257 (2021)

E3S Web Conf., 257 (2021) 01051

Abstract

Open Access

Issue		E3S Web Conf. Volume 257, 2021 5^th International Workshop on Advances in Energy Science and Environment Engineering (AESEE 2021)


Article Number		01051
Number of page(s)		5
Section		Energy Chemistry and Energy Storage and Save Technology
DOI		https://doi.org/10.1051/e3sconf/202125701051
Published online		12 May 2021

E3S Web of Conferences 257, 01051 (2021)

Research on Irreversible Growth Mechanism of PBX due to Thermal Cycling

Siyang Lei^*, Shuo Wang, Fangyun Lu and Rong Chen^**

College of Liberal Arts and Sciences, National University of Defense Technology, Changsha 410073, China

^* Corresponding author: Siyang LEI, 1403209513@qq.com, 19174166901;
^** Rong CHEN, r_chen@nudt.edu.cn, 15111054757

Abstract

Current experiments show that the TATB-based polymer bonded explosives (PBX) will experience irreversible growth when suffered temperature cycling load. Although some studies have already been done on this, the cause of irreversible growth is still confusing, and the mechanism is not clear. In order to study the irreversible growth of PBX under temperature cycling load, an thermal-viscoelastic model is established, Based on the Burgers model which considering the influence of different temperatures on the creep properties of PBX. The analysis shows that the irreversible growth of PBX produced by the different creep properties of high and low temperature during the thermal cycling. Comparing with low temperature, the creep rate of PBX is faster and the deformation is larger at high temperature, which lead to the irreversible growth of PBX.

This is an Open Access article distributed under the terms of the Creative Commons Attribution License 4.0, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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