Study of energy dissipation and rigidity of welded joints obtained by pressure butt welding

IF 0.4 Q4 METALLURGY & METALLURGICAL ENGINEERING
Anatoly Maytakov, Alexey Grachev, Anatoly Popov, Sergey Li, Nadezhda Vetrova, Konstantin Plotnikov
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Abstract

Introduction. When studying the energy dissipation associated with internal friction in a weld, it is extremely important to choose a measurement technique, since the reliability and integrity of the data obtained depends on it. At the same time, it is necessary to investigate the change in internal friction depending on the presence of defects in the weld. Of the variety of methods for non-destructive testing of joints obtained by pressure welding, only ultrasonic is currently used. However, lightly oxidized lacks of welding penetration are not detected, which can be detected only in the presence of other defects accompanying it. Compounds of dissimilar materials are not controlled by ultrasound at all. Therefore, the development of non-destructive testing methods for such compounds is very relevant. The purpose of the work: to find a procedure for testing the quality of a welded joint in metals and alloys that will be a quick and simple alternative to the known methods of non-destructive testing, by measuring the energy dissipation in the weld of the sample by the static hysteresis loop method. The method of investigation is non-destructive quality control of the welded joint in metals and alloys by measuring the energy dissipation in the weld of the sample by the static hysteresis loop method. Results and discussion. It is established that with an increase in the lacks of welding penetration, the energy dissipation increases at the same values of the torque amplitude under static loading conditions. The rigidity of the qualitative welded joints remains constant, and the joints with lacks of welding penetration decrease with increasing torque amplitude. The relationship of strength with stiffness and damping ability obtained by the static hysteresis loop method is preserved for various structural states of the sample material.
压力对接焊接接头的耗能和刚度研究
介绍。在研究与焊缝内摩擦相关的能量耗散时,选择一种测量技术是非常重要的,因为所获得的数据的可靠性和完整性取决于它。同时,有必要研究内摩擦的变化取决于焊缝中缺陷的存在。在压力焊接获得的接头的各种无损检测方法中,目前只使用超声波。然而,不能检测到轻度氧化缺乏焊透,只有在伴随其他缺陷的情况下才能检测到。不同材料的化合物根本不受超声波的控制。因此,开发此类化合物的无损检测方法具有十分重要的意义。这项工作的目的是:寻找一种测试金属和合金焊接接头质量的程序,该程序将是一种快速和简单的替代已知的无损检测方法,通过静态滞后回线法测量样品焊缝中的能量耗散。研究方法是采用静滞回线法测量试样焊缝中的能量耗散,对金属和合金焊接接头进行无损质量控制。结果和讨论。结果表明,在静加载条件下,当扭矩幅值相同时,随着焊透缺失量的增加,能量耗散增大。定性焊接接头刚度保持不变,焊透不足的接头刚度随扭矩幅值的增大而减小。静力滞回线法得到的强度与刚度和阻尼能力的关系在不同结构状态下都保持不变。
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来源期刊
Obrabotka Metallov-Metal Working and Material Science
Obrabotka Metallov-Metal Working and Material Science METALLURGY & METALLURGICAL ENGINEERING-
CiteScore
1.10
自引率
50.00%
发文量
26
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