Birefringence Technique for Evaluating Thermal Stresses in Railroad Rails

Aqeel Fadhil, Glenn Washer, Anish Poudel
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Abstract

This paper discusses the development of an in situ noncontact electromagnetic acoustic transducer (EMAT) nondestructive evaluation technology to determine rail neutral temperature and estimate rail stress in continuous welded rail (CWR). Stresses develop in CWR due to a lack of expansion joints to accommodate thermal expansion and contraction of the rail when ambient temperatures vary over time. The novelty of the work presented is the usage of ultrasonic birefringence properties using EMATs to estimate thermally induced stresses in rails. EMATs produce polarized shear waves propagating through the rail web in the pulse-echo mode. Experimental tests were performed on machined 136RE and 141RE rail material with applied compressive and tensile stresses to explore the stress-birefringence behavior. Two additional sets of experimental tests were conducted on full-size rail sections with in situ surface conditions to study variations in the in situ birefringence and the acoustic stress constant in different rail materials including 115RE rail, 119RE rail, two different 136RE rails, and 141RE rail. The results show a highly linear relationship between the stresses applied and the measured acoustic birefringence.
评估铁轨热应力的双折射技术
本文讨论了现场非接触式电磁声学传感器(EMAT)无损评估技术的开发,该技术用于确定钢轨中性温度并估算连续焊接钢轨(CWR)中的钢轨应力。CWR 中产生应力的原因是缺乏伸缩缝来适应环境温度随时间变化时钢轨的热胀冷缩。这项工作的新颖之处在于利用 EMAT 的超声双折射特性来估算钢轨的热应力。EMAT 可产生极化剪切波,以脉冲回波模式在钢轨腹板中传播。对加工过的 136RE 和 141RE 钢轨材料施加压缩和拉伸应力进行了实验测试,以探索应力-双折射行为。此外,还对具有原位表面条件的全尺寸钢轨截面进行了两组实验测试,以研究不同钢轨材料(包括 115RE 钢轨、119RE 钢轨、两种不同的 136RE 钢轨和 141RE 钢轨)的原位双折射和声学应力常数的变化。结果表明,施加的应力与测得的声学双折射之间存在高度线性关系。
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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