S. Maksimov, Anatoly Gavrilyuk, D.N. Krazhanovskyi
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At the present stage of development of welding technologies, controlled transfer of electrode metal is possible due to the pulsed nature of arc burning. In this case, one of the main methods for increasing the efficiency of the process is to limit the maximum value of the short circuit current by increasing the inductive resistance of the welding circuit. \nThe research aimed to determine the effect of the rate of rising of the welding current during a short circuit on the stability of the welding arc. It was found that an increase in the current growth rate, starting from 1.23 kA/s to 50 kA/ s, leads to a decrease in the average duration of short circuits by at least 10 times. At the same time, the average frequency of short circuits increases by more than 2 times, from 36...38 s-1 to 80...86 s-1. The reason for this is the increase in the values of the electrodynamics’ Lorentz force, the action of which leads to the compression of the liquid metal bridge of the drop (pinch effect) due to an increase in the short circuit current. At the same time, there is a violation of the stability of the pulse process, and this is reflected in an increase in the average frequency of arc breaks by more than 30 times from 0.33 s-1 to 10 s-1. An increase in the energy parameters of the welding process led to a decrease in the average frequency of short circuits (2...3 times) and their average duration (2 times). The reason for this should be considered a change in the type of transfer of liquid metal – the welding process with short circuits has turned into a mixed process in which, along with short circuits, a droplet transfer of electrode metal is observed.","PeriodicalId":434555,"journal":{"name":"Transfer of innovative technologies","volume":"79 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2021-10-29","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Stabilization of the process of mechanized pulsed-arc welding\",\"authors\":\"S. Maksimov, Anatoly Gavrilyuk, D.N. 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In this case, one of the main methods for increasing the efficiency of the process is to limit the maximum value of the short circuit current by increasing the inductive resistance of the welding circuit. \\nThe research aimed to determine the effect of the rate of rising of the welding current during a short circuit on the stability of the welding arc. It was found that an increase in the current growth rate, starting from 1.23 kA/s to 50 kA/ s, leads to a decrease in the average duration of short circuits by at least 10 times. At the same time, the average frequency of short circuits increases by more than 2 times, from 36...38 s-1 to 80...86 s-1. The reason for this is the increase in the values of the electrodynamics’ Lorentz force, the action of which leads to the compression of the liquid metal bridge of the drop (pinch effect) due to an increase in the short circuit current. At the same time, there is a violation of the stability of the pulse process, and this is reflected in an increase in the average frequency of arc breaks by more than 30 times from 0.33 s-1 to 10 s-1. An increase in the energy parameters of the welding process led to a decrease in the average frequency of short circuits (2...3 times) and their average duration (2 times). 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引用次数: 0
摘要
短路保护气体中机械化电弧焊工艺的主要缺点是电极金属熔化过程中的飞溅及其向焊池的转移,影响了工艺的生产率,降低了生产率。它的消除是可能的,通过实施控制转移熔融电极金属到焊接池。这种转移的实施和对在电弧间隙中发生的过程的控制在很大程度上决定了沉积金属定性形成的条件、工艺的稳定性、电极金属损失的大小以及保护气体中弧焊工艺的可制造性。在焊接技术发展的现阶段,由于电弧燃烧的脉冲特性,控制电极金属的转移是可能的。在这种情况下,提高工艺效率的主要方法之一是通过增加焊接电路的感应电阻来限制短路电流的最大值。该研究旨在确定短路时焊接电流上升速率对焊接电弧稳定性的影响。研究发现,电流增长率的增加,从1.23 kA/s到50 kA/s,导致短路的平均持续时间减少至少10倍。与此同时,短路的平均频率增加了2倍多,从36…38 s-1到80…86 s - 1。其原因是电动力学洛伦兹力值的增加,由于短路电流的增加,洛伦兹力的作用导致液滴的液态金属桥(夹紧效应)的压缩。同时,也违反了脉冲过程的稳定性,这体现在弧断的平均频率从0.33 s-1增加到10 s-1,增加了30多倍。焊接过程能量参数的增加导致平均短路频率(2…3次)和平均时长(2次)。造成这种情况的原因应该被认为是液态金属转移类型的变化——具有短路的焊接过程已经变成了一个混合过程,在这个过程中,随着短路,观察到电极金属的液滴转移。
Stabilization of the process of mechanized pulsed-arc welding
The main disadvantage of the mechanized arc welding process in shielding gases with short circuits is the spatter during melting of the electrode metal and its transfer to the weld pool, which affects the productivity of the process, reducing it. Its elimination is possible through the implementation of the controlled transfer of molten electrode metal into the weld pool. The implementation of such a transfer and the control of the processes that take place in the arc gap to a large extent determine the conditions for the qualitative formation of the deposited metal, the stability of the process, the magnitude of the loss of electrode metal and the manufacturability of the processes of arc welding in shielding gases. At the present stage of development of welding technologies, controlled transfer of electrode metal is possible due to the pulsed nature of arc burning. In this case, one of the main methods for increasing the efficiency of the process is to limit the maximum value of the short circuit current by increasing the inductive resistance of the welding circuit.
The research aimed to determine the effect of the rate of rising of the welding current during a short circuit on the stability of the welding arc. It was found that an increase in the current growth rate, starting from 1.23 kA/s to 50 kA/ s, leads to a decrease in the average duration of short circuits by at least 10 times. At the same time, the average frequency of short circuits increases by more than 2 times, from 36...38 s-1 to 80...86 s-1. The reason for this is the increase in the values of the electrodynamics’ Lorentz force, the action of which leads to the compression of the liquid metal bridge of the drop (pinch effect) due to an increase in the short circuit current. At the same time, there is a violation of the stability of the pulse process, and this is reflected in an increase in the average frequency of arc breaks by more than 30 times from 0.33 s-1 to 10 s-1. An increase in the energy parameters of the welding process led to a decrease in the average frequency of short circuits (2...3 times) and their average duration (2 times). The reason for this should be considered a change in the type of transfer of liquid metal – the welding process with short circuits has turned into a mixed process in which, along with short circuits, a droplet transfer of electrode metal is observed.
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