Progressive technologies of electrophysical treatment for regulation of stress-strain states of elements of welded structures

Leonid Lobanov, Pavlo Ustymenko, Yuriy Sydorenko, Mykola Pashchyn
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Abstract

The development of industry stimulates the development of modern approaches to the optimization of welded structures. The use of pulsed electromagnetic fields, plasma currents, electrodynamic forces and their combined effects is a new trend in engineering practice to improve the mechanical characteristics of metal materials and welded joints (WJ). Treatment with a pulsed electromagnetic field (TwPEMF) is a promising direction for optimizing the stress-strain states (SSS) of welded structures made of non-ferromagnetic metal materials. Using the method of electronic speckle interferometry, the effect of TwPEMF on the SSS of specimens of circumferential WJ with a thickness of δ = 1.0 mm from aluminium AMg6 alloy was investigated. Based on the original procedure using an accelerometer, the kinetics of the action of the force P of the magnetic field pressure on the residual displacements f and SSS of the specimens during their TwPEMF were investigated. TwPEMF of WJ specimens was performed without and with the use of an additional shield made of AMg6 alloy δ = 5.0 mm. It was found that the use of a shield increases the amplitude values of force P by up to two times, which is caused by an increase in the active volume of the conductive medium. At the same time, TwPEMF without and with the use of a shield contributes to the reduction of f values by 2 and 4 times, respectively, and residual SSS by 50 and 80%. On the basis of mathematical modelling, the advantages of using electrodynamic treatment (EDT) of butt WJ δ = 3.0 mm of АMg61 (1561) alloy in the TIG welding process compared to EDT at room temperature (Tk) are substantiated. According to the results of the model verification, it was proved that EDT during TIG contributes to the formation of peak values of residual compressive stresses in the weld zone by 60% more than EDT during Tk. The use of a pulsed barrier discharge (PBD), which generates a low-temperature plasma on the surface of the metal being treated, contributes to the optimization of its structure. An increase in the hardness HV of structural 25KhGNMT steel as a result of its PBD treatment from 420 to 510 units was established, which is accompanied by the dispersion of the metal microstructure.
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焊接构件应力-应变状态调节的电物理处理新技术
工业的发展促进了现代焊接结构优化方法的发展。利用脉冲电磁场、等离子体电流、电动力及其综合效应来改善金属材料和焊接接头的力学特性是工程实践中的一个新趋势。脉冲电磁场(TwPEMF)处理是非铁磁性金属材料焊接结构应力应变状态优化的一个有前途的方向。采用电子散斑干涉法,研究了TwPEMF对厚度为δ = 1.0 mm的AMg6铝合金周向WJ试样SSS的影响。在此基础上,利用加速度计研究了磁场压力的力P对试样在TwPEMF过程中的剩余位移f和SSS的作用动力学。WJ试样的TwPEMF在没有和使用AMg6合金δ = 5.0 mm的附加屏蔽层的情况下进行。研究发现,屏蔽的使用使力P的振幅值增加了两倍,这是由导电介质的有效体积增加引起的。同时,不加屏蔽和加屏蔽的TwPEMF分别使f值降低了2倍和4倍,剩余SSS降低了50%和80%。在建立数学模型的基础上,论证了АMg61(1561)合金对接WJ δ = 3.0 mm电动力学处理(EDT)在TIG焊接工艺中的优越性。模型验证结果表明,TIG过程中EDT对焊缝区残余压应力峰值形成的贡献比Tk过程中EDT的贡献多60%。利用脉冲阻挡放电(PBD)在被处理金属表面产生低温等离子体,有助于金属结构的优化。经PBD处理后,25KhGNMT组织钢的硬度HV由420单位提高到510单位,并伴有金属组织的分散。
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