Author:
Liu Can,Dong Yi-Yang,Fan Yu-Yang,Yang Yi,Zhao Jing-Yun,Wang Ke,Liu Xiao-Jun
Abstract
PTFE/Al reactive material is an energetic material that releases energy under impact conditions, resulting in a wide range of application prospects. In order to improve its damage ability—considering the higher heat of the reaction per unit mass when Ni2O3 is involved in the aluminothermic reaction—we designed and studied PTFE/Al/Ni2O3, a reaction material based on polytetrafluoroethylene (PTFE). We also designed two other kinds (PTFE/Al, PTFE/Al/CuO) for comparative study, with the mass fraction of the metal oxides added at 10%, 20%, and 30%, respectively. The quasi-static compression properties and impact initiation behavior of the material were investigated by a universal material testing machine and a drop hammer test. The reaction process of different materials under a high strain rate was recorded using a high-speed camera. The results show that with the increase in Ni2O3 content, the strength of the PTFE/Al/Ni2O3 reactive material shows an increasing trend followed by a decreasing trend. Among the three reactive materials, when the content of Al/Ni2O3 reaches 30 wt.%, the reaction duration is the longest (at 4 ms) and the reaction fireball is the largest. The addition of Ni2O3 is helpful to improve the reactivity and reaction duration of the PTEF/Al reactive material.
Funder
Nanchang University Interdisciplinary Innovation Fund of Natural Science
Subject
Polymers and Plastics,General Chemistry
Reference24 articles.
1. Wang, H., Guo, H., Geng, B., Yu, Q., and Zheng, Y. Application of PTFE/Al Reactive Materials for Double-Layered Liner Shaped Charge. Materials, 2019. 12.
2. Ge, C., Dong, Y., and Maimaitituersun, W. Microscale Simulation on Mechanical Properties of Al/PTFE Composite Based on Real Microstructures. Materials, 2016. 9.
3. Preparation and mechanical properties of PTFE/Al reactive multilayer films;Jiang;Chin. J. Energetic Mater.,2014
4. Reactions of Al-PTFE under Impact and Quasi-Static Compression;Feng;Adv. Mater. Sci. Eng.,2015
5. Dynamic Mechanical Behavior and Impact Ignition Characteristics of Al/PTFE Reactive Materials;Li;Chin. J. Energetic Mater.,2020