The application of Ar-CO2 mixed gas in the welding of low-carbon steel could improve welding process, increase welding quality and decrease welding cost.
CO2混合气应用在低碳钢焊接上,可以改进焊接工艺,提高焊接质量,降低焊接成本。
This paper illustrates the applications of mixed gases in GMAW and analyzes the different proportion of shielding gas impacts on the welding technics performance and quality in GMAW.
阐述了混合气体在熔化极气体保护焊中的应用现状,分析了保护气体成分的不同配比对熔化极气体保护焊的焊接工艺性能、焊接质量的影响。
Taking the He-Ar mixed gas as protected atmosphere, TIG welding process parameters for AZ31 magnesium alloy plates was optimized by using the method of the orthogonal experiment and variance analysis.
以氦-氩混合气体为保护气氛,采用正交试验和方差分析的方法,对AZ31镁合金板材进行了TIG焊工艺参数的优化。
The He-Ar mixed gas TIG welding for AZ31 magnesium alloy plate by was carried out. The surface of observed joint is smooth free from heap high and appearance defects.
在氦-氩混合气体保护条件下,对AZ31镁合金板材进行了TIG焊接,获得了表面光滑、无堆高和无变形等缺陷的焊缝。
The merits of the acetylene gas and the defects of new type of welding gas are completely mixed together on the aspect of theory and practice.
理论和实践上把乙炔气的优点和新型焊割气存在的缺点完整的捏合在一起。
According to the different welding materials, if adopts the carbon dioxide gas or mixed gas to be the protective medium to carry out the welding.
根据焊接材料的不同,可采用二氧化碳气体或混合气体作为保护介质进行焊接。
The mixed gas metal arc welding process is used for the first time by DFEM in the discharge chamber of the hydraulic turbine exported to Syria's Tishrin.
东方电机股份有限公司首次采用混合气体熔化极气体保护焊焊接水轮机转轮室,并且在出口叙利亚的迪什林水轮机中应用。
The weldability of AZ31 magnesium plate by He-Ar mixed gas tig welding was investigated. The welding process parameters for AZ31 plate with a 3 mm thickness were optimized.
探讨氦-氩混合气体保护下tig焊接az31镁合金板的可焊性,对其焊接工艺参数进行确定。
In order to improve conventional GMAW process the effect of shielding gas quality and mixed ratio of different gases on welding quality are studied and useful fixtures are developed.
为提高常规气电焊工艺水平,进行了保护气体质量及配比对焊缝质量影响规律的研究及气电焊辅具的研制。
In order to improve conventional GMAW process the effect of shielding gas quality and mixed ratio of different gases on welding quality are studied and useful fixtures are developed.
为提高常规气电焊工艺水平,进行了保护气体质量及配比对焊缝质量影响规律的研究及气电焊辅具的研制。
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