焊后回火对32g2和40hn钢高周疲劳摩擦焊接接头力学行为的影响

A. Atamashkin, E. Priymak
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引用次数: 0

摘要

在现代机械设备中,摩擦焊接接头作为一种高效率、可加工性强、经济高效、安全可靠的先进生产技术正在得到广泛应用。此外,它允许生产大量不同的类似和相反的金属和合金的高质量接头。尽管有这些优点,但应该考虑到金属在焊接接头形成过程中受到局部热变形效应的影响,这导致了焊接接头结构和残余应变的梯度性质。这些因素直接影响结构在疲劳载荷下的工作能力和耐久性,是造成零件失效的最常见原因。本文对采用旋转摩擦焊接技术生产的32G2和40HN钢进行了焊后回火对焊接接头循环寿命的影响评价。采用旋转试件在均匀扭转作用下的两点紧固方法,对高周疲劳条件下的焊接接头实验室试样进行了模拟试验。该研究涉及对所获得的循环寿命结果进行统计处理。通过金相分析,确定了在初始状态和回火后疲劳裂纹萌生和发展的焊接点的薄弱环节。本文给出了试验试样的断口图,说明了试验试样的断裂机理。确定了不同回火温度模式对所研究焊接接头循环寿命和断裂性质的影响。研究表明,在400℃以上的回火温度下,由于热-机械作用区脆弱区域的回火和多角化过程的发展,在疲劳载荷的作用下促进了断裂加速。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
THE INFLUENCE OF POSTWELD TEMPERING ON MECHANICAL BEHAVIOR OF FRICTION WELDED JOINTS OF 32G2 AND 40HN STEELS UNDER HIGH-CYCLE FATIGUE
At modern mechanical facilities, the friction-welded joints are getting widespread as the most advanced production technique characterized by high efficiency, processability, cost-effectiveness, and safety. Moreover, it allows producing high-quality joints of a large number of different analogous and opposite metals and alloys. Despite all these advantages, one should consider that metal, in the process of welded joint formation, suffers a local thermo-deformational effect, which causes the gradient nature of the structure and residual strains of a welded joint. These factors directly influence the structure’s working ability and durability under fatigue loads, which are the most common cause for parts failure. The paper contains the assessment of the post-weld tempering influence on the cyclic life of welded joints of 32G2 and 40HN steels produced using the rotational friction welding technique. The authors tested laboratory specimens with welded joints under the high-cycle fatigue using the simulation machine with the two-point fastening of a revolving specimen under the action of even twisting moment. The study involved the statistical processing of the obtained results of cyclic life. Based on the metallographic analysis, the authors identified the weak points in welded points where the fatigue cracks initiation and progress occurred in the initial state and after tempering. The paper presents the fractographs illustrating the fracture mechanism of specimens under the study. The authors identified the influence of different tempering temperature modes on the cyclic life of the studied welded joints and the nature of their fracture. The study shows that tempering at the temperature over 400 °C promotes fracture acceleration under the effect of fatigue loads due to the development of return and polygonization processes in the vulnerable area of the thermomechanical action zone.
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