摘要
聚四氟乙烯(PTFE)在高速碰撞或者爆炸加载时的应变率可高达10~6s^(-1),高应变率下PTFE材料的力学响应会对其材料性能产生较大影响。本文中采用压剪炮试验系统(PSPI)测试了PTFE材料在高应变率(10~5~10~6s^(-1))下的压缩力学性能,实验中碳化钨(WC)飞片板以一定速度撞击由前靶板、试件和后靶板组成的三明治结构,并采用激光干涉仪记录后靶板自由面的速度变化。对实验结果处理后得到该PTFE材料的应力应变数值,并拟合得到应力应变曲线。本研究对PTFE/金属复合材料制成的动能侵彻体强度及其冲击碎化机理的分析具有指导意义。
The mechanical properties of polyetrafluoroethylene( PTFE),which is being used increasingly in diverse applications owing to its many attractive properties,are important for applications involving either highvelocity impact or blast loading at very high strain rates( of the order of 106s-1). In this work,for high strain rates of 105106s-1,the PTFE dynamic pressure experiment was conducted using the pressure-shear plate-impact( PSPI) facility in which a tungsten-carbide( WC) flyer impacted a target assembly consisting of a thin PTFE plate sandwiched between two hard( elastic) WC plates. The velocity at the free surface of the target assembly was measured using the laser interferometry,an effective method was adopted to analyze the experimental results to obtain the values of the stress and strain at four points,and the stress strain relationship was fitted. The investigation has significance for the analysis of the strength and impact crushing performance of PTFE/metal reactive fragments.
出处
《爆炸与冲击》
EI
CAS
CSCD
北大核心
2017年第6期1046-1050,共5页
Explosion and Shock Waves
基金
国家自然科学基金项目(11202028)
高等学校博士学科点专项科研基金项目(20121101110012)