Residual Stress Induced by Phase Transformation and its Role in the Delayed Cracking Performance of 22MnB5 Hot Roll Bending Pipes

IF 2.2 4区 材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
Kai Ding, Ping Zhu, Tianhan Hu, Wufeng Dong, Yu Sun, Jiayi Zhou, Bingge Zhao, Lei Shi, Yulai Gao
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Abstract

Residual stress plays an important role in the delayed cracking performance of the 22MnB5 hot roll bending pipe. In the present study, the residual stress distribution of the 22MnB5 hot roll bending pipes with different pipe thicknesses is compared. The results show that both the tensile and compressive residual stresses can be traced in the bending zone for the pipe with plate thickness around 1.5 mm. On the contrary, only tensile residual stress obtains in the residual stress measurement positions for the thicker one (~ 2.3 mm). In addition, the thicker 22MnB5 pipe exhibits poor delayed cracking behavior in the solution of 0.1 mol/L HCl for 300 h. Compared with thinner 22MnB5 pipe, high tensile residual stress occurs in the thicker one induced by phase transformation and deformation during the hot roll bending process, deteriorating its delayed cracking performance.

Abstract Image

相变引起的残余应力及其在 22MnB5 热轧弯管延迟开裂性能中的作用
残余应力对 22MnB5 热轧弯管的延迟开裂性能起着重要作用。本研究比较了不同厚度 22MnB5 热轧弯管的残余应力分布。结果表明,对于板厚在 1.5 毫米左右的管材,在弯曲区域既可以追踪到拉伸残余应力,也可以追踪到压缩残余应力。相反,对于较厚的钢管(约 2.3 毫米),在残余应力测量位置只存在拉伸残余应力。此外,较厚的 22MnB5 管材在 0.1 mol/L HCl 溶液中 300 小时的延迟开裂性能较差。与较薄的 22MnB5 管材相比,较厚的管材在热轧弯曲过程中由于相变和变形而产生了较高的拉伸残余应力,从而降低了其延迟开裂性能。
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来源期刊
Journal of Materials Engineering and Performance
Journal of Materials Engineering and Performance 工程技术-材料科学:综合
CiteScore
3.90
自引率
13.00%
发文量
1120
审稿时长
4.9 months
期刊介绍: ASM International''s Journal of Materials Engineering and Performance focuses on solving day-to-day engineering challenges, particularly those involving components for larger systems. The journal presents a clear understanding of relationships between materials selection, processing, applications and performance. The Journal of Materials Engineering covers all aspects of materials selection, design, processing, characterization and evaluation, including how to improve materials properties through processes and process control of casting, forming, heat treating, surface modification and coating, and fabrication. Testing and characterization (including mechanical and physical tests, NDE, metallography, failure analysis, corrosion resistance, chemical analysis, surface characterization, and microanalysis of surfaces, features and fractures), and industrial performance measurement are also covered
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