Mathematical Approach to the Stress-Strain State of AMg61 Alloy Weld Joints during their Electrodynamic Treatment on Fusion Welding

IF 0.7 4区 材料科学 Q4 MATERIALS SCIENCE, CHARACTERIZATION & TESTING Strength of Materials Pub Date : 2024-07-19 DOI:10.1007/s11223-024-00644-6
L. M. Lobanov, M. O. Pashchyn, O. L. Mikhodui, Y. M. Sydorenko, P. R. Ustymenko
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Abstract

Mathematical simulation of stress states arising in butt weld joints of AMg61 aluminum alloy plates (δ = 2, 4, and 8 mm) induced by electrodynamic treatment (EDT) at different temperatures was performed. The vertical velocity V0 of the indenter electrode (EDT tool), determined by the energy characteristics of EDT equipment, was taken to be V0 = 5 m/s. The T values were set to represent the EDT conditions after welding (20°C) and during fusion welding (150 and 300°C). The three-dimensional problem was solved by the finite element method using an ANSYS software package. The conditions for the stresses arising in the EDT plates after and during welding were defined by the mechanical characteristics of an AMg61 alloy at 20, 150, and 300°C, which were described by the kinematically-hardened material model. The computational results for kinetics and residual stress states in weld joints are presented. EDT at 150°C (during welding) was established to be more effective than that at 20°C (after weld cooling). EDT of weld joints (δ = 2–4 mm) was found to result in residual compression stresses across the whole width of the plate, with their values being close to the yield strength of an AMg61 alloy. EDT of weld joints (δ = 8 mm) generates residual compression stresses on the outer plate surface and the tensile ones on its back surface. Thus, for optimum residual stress states of weld joints with δ = 2–4 mm, one-sided EDT (at given V0) is sufficient, while for δ = 8 mm, two-sided EDT would be required.

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用数学方法研究 AMg61 合金焊接接头在熔融焊接过程中的应力-应变状态
对 AMg61 铝合金板(δ = 2、4 和 8 毫米)对接焊点在不同温度下由电动处理(EDT)引起的应力状态进行了数学模拟。根据 EDT 设备的能量特性,压头电极(EDT 工具)的垂直速度 V0 取为 V0 = 5 m/s。设定的 T 值分别代表焊接后(20°C)和熔焊期间(150°C 和 300°C)的 EDT 条件。三维问题采用 ANSYS 软件包的有限元法求解。EDT 板在焊接后和焊接过程中产生应力的条件是根据 AMg61 合金在 20、150 和 300°C 时的机械特性确定的,并通过运动硬化材料模型进行了描述。本文介绍了焊接接头动力学和残余应力状态的计算结果。150°C 时(焊接过程中)的 EDT 比 20°C 时(焊接冷却后)的 EDT 更有效。研究发现,焊点(δ = 2-4 毫米)的 EDT 会在整个板材宽度上产生残余压缩应力,其值接近 AMg61 合金的屈服强度。焊点 EDT(δ = 8 毫米)在板外表面产生残余压缩应力,而在其背面产生拉伸应力。因此,对于 δ = 2-4 mm 的焊点的最佳残余应力状态,单面 EDT(给定 V0)就足够了,而对于 δ = 8 mm,则需要双面 EDT。
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来源期刊
Strength of Materials
Strength of Materials MATERIALS SCIENCE, CHARACTERIZATION & TESTING-
CiteScore
1.20
自引率
14.30%
发文量
89
审稿时长
6-12 weeks
期刊介绍: Strength of Materials focuses on the strength of materials and structural components subjected to different types of force and thermal loadings, the limiting strength criteria of structures, and the theory of strength of structures. Consideration is given to actual operating conditions, problems of crack resistance and theories of failure, the theory of oscillations of real mechanical systems, and calculations of the stress-strain state of structural components.
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