Application of acoustoelasticity in studying compressive stress state in Polymer bonded explosive

2015 IEEE Far East NDT New Technology & Application Forum (FENDT) Pub Date : 2015-05-28 DOI:10.1109/FENDT.2015.7398318

Yao Xu, Zhan-feng Yang, Hai-qiang Zhou, Wei-bin Zhang

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引用次数: 4

Abstract

The acoustoelastic technique is a nondestructive technique for analyzing the stress state in materials using ultrasonic waves. The velocities of the ultrasonic waves propagating through Polymer bonded explosive (PBX) change depending on the applied stress (compression or tension). In this paper, PBX specimens at close range of densities and ultrasonic wave velocities under similar initial conditions are applied in the compressive loading tests. Ultrasonic longitudinal wave propagation direction is parallel and perpendicular to applied stress direction respectively. Longitudinal wave velocities are accurately and efficiently achieved by real-time Ultrasonic time differences (velocity) measurement unit. In the range of stress evaluated under compression between 0 and 15MPa, these relations between the relative variation of the longitudinal wave velocity and the applied stress vary linearly. The value of acoustoelastic constant (K) can be determined by the compression tests. These founds suggest the potential of applying the acoustoelastic effect to determine the compressive stress condition of PBX in a certain stress range.

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声弹性在聚合物粘结炸药压应力状态研究中的应用

声弹性技术是一种利用超声波分析材料应力状态的无损技术。超声波在聚合物粘结炸药(PBX)中的传播速度随外加应力(压缩或拉伸)的变化而变化。本文采用相似初始条件下密度和超声波速接近的PBX试件进行压缩加载试验。超声波纵波传播方向分别与外加应力方向平行和垂直。利用实时超声时差(速度)测量装置，可以准确、高效地测量纵波速度。在0 ~ 15MPa的压缩应力范围内，纵波速度的相对变化与外加应力的关系呈线性变化。声弹性常数K的取值可以通过压缩试验确定。这些发现提示了在一定应力范围内应用声弹性效应确定PBX压应力状态的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 IEEE Far East NDT New Technology & Application Forum (FENDT)

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