高速列车车体检修对玻璃残余应力影响研究
Study on the Effect of High-Speed Train Body Overhaul on Residual Stress Distributed on Windows Glass
DOI: 10.12677/MET.2021.105059, PDF,   
作者: 刘 建, 朱瑞栋:中车青岛四方机车车辆股份有限公司,山东 青岛
关键词: 车体检修挡风玻璃残余应力超声波无损检测Train Body Overhaul Windows Glass Residual Stress Ultrasonic Non-Destructive Testing
摘要: 本文针对高速列车车体运营检修前后的挡风玻璃等部位,研究车体检修对其各部位残余应力的影响。通过超声波无损检测来测定各位置残余应力的变化,结果发现:在检修前后,挡风玻璃各区域均呈现压应力。经过检修后,前挡风玻璃和头灯座残余应力减小,侧挡风玻璃残余应力增大,但残余应力变化幅度均较小。
Abstract: This paper focused on the windows glass of high-speed vehicle body before and after overhaul and the influence of overhaul on residual stress distributed on windshield is studied. The change of residual stress in each position of windows glass was measured by ultrasonic non-destructive testing. The results showed that: each area of the windshield presented compressive stress before and after maintenance. After overhaul, the residual stress of the front windows glass and the headlamp hold-er decreased and the residual stress of the side windows glass increased, but the variation range of the residual stress is small.
文章引用:刘建, 朱瑞栋. 高速列车车体检修对玻璃残余应力影响研究[J]. 机械工程与技术, 2021, 10(5): 530-536. https://doi.org/10.12677/MET.2021.105059

参考文献

[1] 路浩, 邢立伟, 邢敬伟. 超声波法焊接残余应力测量技术[J]. 焊管, 2019, 42(8): 50-55.
[2] Liu, Z.Z., Gong, Y.Z. and Zhou, L.T. (2020) Impact of China’s High Speed Train Window Glass on GNSS Signals and Positioning Perfor-mance. Satellite Navigation, 1, Article No. 14. [Google Scholar] [CrossRef
[3] 冯志超. 浮法玻璃热破裂行为研究[D]: [硕士学位论文]. 西安: 西安科技大学, 2017.
[4] 王元清, 梁宇钒, 石永久, 马赢. 单层带孔玻璃板孔边破坏应力的力学分析[J]. 工程力学, 2005, 22(5): 147-152.
[5] 杨龙, 杨冰, 阳光武, 等. 不锈钢车体点焊接头疲劳特性分析[J]. 焊接学报, 2020, 41(7): 18-24+52.
[6] 蒋刚, 谭明华, 王伟明, 何闻. 残余应力测量方法的研究现状[J]. 机床与液压, 2007, 35(6): 213-220
[7] Walaszek, H., Lieurade, H.-P., Peyrac, C., Hoblos, J. and Rivenez, J. (2002) Potentialities of Ultrasonic for Evaluation Residual Stresses: Influence of Microstructure. Jour-nal of Pressure Vessel Technology, 124, 349-353. [Google Scholar] [CrossRef
[8] 陆雁飞. 钢雨棚钢化夹胶玻璃爆裂原因及抗裂措施[J]. 山西建筑, 2020, 46(17): 99-100.
[9] Zuo, P.Y., Tcharkhtchi, A., Fitoussi, J., Shirinbayan, M. and Bakir, F. (2020) Multiscale Thermal Study of Virgin and Aged Polyphenylene Sulfide Reinforced by Glass Fiber. Journal of Applied Polymer Sci-ence, 137, Article ID: 49031. [Google Scholar] [CrossRef
[10] 钟汝梅, 郑琦林, 刘月豹, 叶飞, 张阳, 叶通. 高铝玻璃化学钢化的制备工艺优化研究[J]. 玻璃, 2020, 47(8): 39-44.
[11] 包亦望, 刘正权. 钢化玻璃自爆机理与自爆准则及其影响因素[J]. 无机材料学报, 2016, 31(4): 401-406.
[12] 张启龙, 风杰, 吴萍, 吴小飞, 杨辉. 钢化玻璃绝缘子研究进展[J]. 材料科学与工程学报, 2014, 32(4): 596-601.
[13] 陈佳. 钢化玻璃安全性能的理论分析与实验研究[D]: [硕士学位论文]. 杭州: 浙江大学, 2014.
[14] 沈浩, 谢硕, 姚晓冬, 赵吉文. 高速客车风窗玻璃破裂机理分析[J]. 客车技术与研究, 2002, 24(6): 6-8.

为你推荐