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高速列车铝合金超声波法残余应力检测误差分析
引用本文:李明高,孙海荣,苟国庆,于金朋. 高速列车铝合金超声波法残余应力检测误差分析[J]. 西南交通大学学报, 2018, 53(6): 1295-1300. DOI: 10.3969/j.issn.0258-2724.2018.06.027
作者姓名:李明高  孙海荣  苟国庆  于金朋
摘    要:为了研究超声波残余应力检测技术在高速列车关键部位残余应力检测时,不同误差对测试数据的的影响,以A5083及6005A为研究对象,研究了其织构各向异性与超声传播时间的关系,并分析了频率对测试深度应力系数的影响. 结果表明:在平行与垂直材料轧制方向,A5083材料声波传播在拉压应力状态下应力系数差别相对较小,偏差约为4.26%;6005A材料在拉压应力状态下应力系数差别相对偏大,拉应力和压应力拟合的应力系数偏差率约为13.12%,均需单独标定;不同频率声波探头测试的深度不同,所标定的应力系数值差别较大,焊缝区域在拉压应力状态下应力系数变化最为明显,最大变化率为30.69%,热影响区和母材的变化率分别为14.03%和9.66%. 

关 键 词:高速列车   铝合金   超声波   残余应力检测   拉压应力   ?应力系数
收稿时间:2017-11-20

Analysis of Residual-Stress Test Errors via Ultrasonic Method for Aluminium Alloy Used in High-Speed Trains
LI Minggao,SUN Hairong,GOU Guoqing,YU Jinpeng. Analysis of Residual-Stress Test Errors via Ultrasonic Method for Aluminium Alloy Used in High-Speed Trains[J]. Journal of Southwest Jiaotong University, 2018, 53(6): 1295-1300. DOI: 10.3969/j.issn.0258-2724.2018.06.027
Authors:LI Minggao  SUN Hairong  GOU Guoqing  YU Jinpeng
Abstract:To study the influence of different errors incurred during ultrasonic residual-stress detection on test data concerning key components of high-speed trains, the relationship between the anisotropy of A5083 and 6005A materials, in terms of texture and ultrasonic propagation time, was investigated. The stress coefficient corresponding to the measured depth at different frequencies was also investigated. Results demonstrate a relatively small difference between stress coefficients (a deviation of approximately 4.26%) corresponding to the tensile and compressive stress states of sonic-wave propagation along directions parallel and perpendicular to the rolling direction of the A5083 material. Corresponding deviation in the values of tensile and compressive stress states of the 6005A material equals 13.12%. As such, both materials must be calibrated separately. The depth measured by the sonic probe at different frequencies is different, and the stress coefficient calibrated by the probe at different operating frequencies varies greatly from one region to another. Values of the stress coefficient demonstrate obvious changes under tensile and compressive stress states in the weld zone. The maximum rate-of-change observed measured 30.69%. Change rates corresponding to the heat-affected area and base-metal zone measured 14.03% and 9.66%, respectively. 
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