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CSP流程Ti微合金化高强钢的疲劳性能
引用本文:田星, 张永琨, 谭佳梅, 康永林. CSP流程Ti微合金化高强钢的疲劳性能[J]. 工程科学学报, 2014, 36(6): 780-786. DOI: 10.13374/j.issn1001-053x.2014.06.011
作者姓名:田星  张永琨  谭佳梅  康永林
作者单位:1. 北京科技大学材料科学与工程学院, 北京 100083;
基金项目:国家高技术研究发展计划资助项目(2013AA031601);“十二五”国家科技支撑计划资助项目(2012BAF04B01)
摘    要:采用升降法对CSP工艺生产的2mm厚Ti微合金化高强钢的疲劳性能进行研究.结果发现:高强钢的抗拉强度为830 MPa;疲劳强度为685 MPa,约为抗拉强度的0.83倍;伸长率为18.8%.绘制了高强钢的S-N曲线,并拟合出疲劳寿命与最大应力的关系.通过扫描电镜对疲劳断裂机理进行了分析.宏观疲劳断口可见明显的裂纹源区、扩展区和瞬断区形貌.疲劳裂纹起始于带钢表面微裂纹;疲劳扩展区存在微观疲劳辉纹、二次裂纹和宏观疲劳贝纹线;瞬断区出现撕裂棱,兼有韧窝存在.

关 键 词:高强钢  疲劳性能  显微组织  微合金化  
收稿时间:2014-04-10

Fatigue properties of Ti microalloyed high-strength steel by CSP process
TIAN Xing, ZHANG Yong-kun, TAN Jia-mei, KANG Yong-lin. Fatigue properties of Ti microalloyed high-strength steel by CSP process[J]. Chinese Journal of Engineering, 2014, 36(6): 780-786. DOI: 10.13374/j.issn1001-053x.2014.06.011
Authors:TIAN Xing  ZHANG Yong-kun  TAN Jia-mei  KANG Yong-lin
Affiliation:1. School of Materials Science and Engineering, University of Science and Technology Beijing, Beijing 100083, China;2. CSP Branch of General Wire Rod Mill, Wuhan Iron and Steel (Group) Co., Wuhan 430083, China
Abstract:The fatigue properties of 2 mm-thick Ti-microalloyed high-strength steel produced in a CSP line was studied by the up-down method. It is found that the tensile strength of the steel is 830 MPa, the fatigue strength is 685 MPa, about 0. 83 times as large as the tensile strength, and the elongation is 18. 8%. The S-N curve of the steel was drawn out and the relationship between the maximum stress and fatigue life was fitted. The cracking mechanism was analyzed by scanning electron microscopy. The crack source, expansion region, and eventual failure region appears significantly in the microscopic structure. Fatigue cracks initiate from microcracks on the strip surface. Microcosmic fatigue striations, secondary cracks, and macroscopic fatigue bay ridges are observed in the fatigue extension region. The eventual failure region meets the characteristics of tear edge morphology along with dimples. 
Keywords:high strength steel  fatigue properties  microstructure  microalloying  titanium
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