Simulation of the Propagation Behavior of Short Cracks in Q235 Steel Based on Stress-Magnetic Coupling

2018 IEEE Far East NDT New Technology & Application Forum (FENDT) Pub Date : 2018-07-01 DOI:10.1109/FENDT.2018.8681952

Yi Liu, Bo Hu

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Abstract

A stress-magnetic coupling model was established from the perspective of energy conservation to study the variation rule of the magnetic signals in the process of short crack propagation in Q235 steel. The stress distribution and magnetic induction intensity caused by the propagation of surface short cracks in different directions can be solved using the finite element method. The effect of early short crack propagation under the tensile load on the magnetic signals of the surface space was analyzed. Results showed that magnetic induction intensity linearly increased with the increase in tensile stress. The propagation of short cracks in all directions would affect the surface magnetic induction intensity, wherein the magnetic signal was most sensitive to depth change and least sensitive to length change. The peak value of magnetic anomaly first increased and then decreased with the increase in the length and depth of short cracks and gradually increased with depth. Early damage in Q235 steel can be determined by measuring the magnetic induction intensity of the surface. This approach provided a new idea for the application of the magnetic detection method in the quantitative problem of short cracks.

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基于应力-磁耦合的Q235钢短裂纹扩展行为模拟

从能量守恒的角度建立应力-磁耦合模型，研究Q235钢短裂纹扩展过程中磁信号的变化规律。利用有限元方法可以求解表面短裂纹在不同方向上扩展引起的应力分布和磁感应强度。分析了拉伸载荷作用下早期短裂纹扩展对表面空间磁信号的影响。结果表明，磁感应强度随拉伸应力的增大而线性增大。短裂纹在各个方向的扩展都会影响表面磁感应强度，其中磁信号对深度变化最敏感，对长度变化最不敏感。磁异常峰值随短裂缝长度和深度的增加先增大后减小，随深度的增加逐渐增大。Q235钢的早期损伤可以通过测量表面磁感应强度来判断。该方法为磁探法在短裂纹定量问题中的应用提供了新的思路。

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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2018 IEEE Far East NDT New Technology & Application Forum (FENDT)

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