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Experimental Investigation on Autogenous Tungsten Inert Gas (TIG) Welding of AISI 1020 Mild Steel

机译：AISI 1020低碳钢自体钨极惰性气体保护焊的实验研究

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Tungsten Inert Gas welding is also known as Gas Tungsten Arc Welding (GTAW), is an advance arc welding process become a popular choice when a high level of weld quality or considerable precision welding is required. However, the major problems of TIG welding process are its slow welding speed and limited to lower thickness material in single pass. In this work, autogenous TIG welding has been performed on 5 mm thick AISI 1020 mild steel plate without using any filler material. Wide range of welding current and scan speed has been tested for obtaining a full penetration welding. Activated flux has also been used to improve the weld depth. After performing welding by maintaining different gap between the plates to be welded, weld bead geometry and tensile strength of the weld has been investigated. It is observed that, by maintaining an appropriate gap full penetration welding of plate is possible which gives strength almost similar to base material

机译：钨极惰性气体保护焊也称为气体钨极电弧焊（GTAW），当需要高水平的焊接质量或相当精确的焊接时，先进的电弧焊工艺已成为一种流行的选择。但是，TIG焊接工艺的主要问题是其焊接速度较慢，并且仅限于单次通过的厚度较低的材料。在这项工作中，在不使用任何填充材料的情况下，在5毫米厚的AISI 1020低碳钢板上进行了自体TIG焊接。已经测试了大范围的焊接电流和扫描速度，以实现全熔透焊接。活化焊剂也已用于改善焊接深度。在通过保持待焊接的板之间的不同间隙进行焊接之后，已经研究了焊缝的几何形状和焊缝的拉伸强度。观察到，通过保持适当的间隙，可以对板进行全熔透焊接，从而获得几乎与基材相似的强度

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Ahirwar Pankaj;
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2. 钨极惰性气体保护焊和金属惰性气体保护焊AA6082-T6管状接头显微组织与力学特性的对比研究 [J] . E.R.IMAM, FAUZI, M.S.CHE, 中国有色金属学报：英文版 . 2017,第001期
3. 钨极惰性气体保护焊和金属惰性气体保护焊AA6082-T6管状接头显微组织与力学特性的对比研究（英文） [J] . E.R.IMAM, FAUZI, M.S.CHE, 中国有色金属学报：英文版 . 2017,第001期
4. Effect of Autogenous Tungsten Inert Gas (TIG) Welding of AISI 1010 Mild Steel on Mechanical Strength [J] . Sourabh Raikwar, Arun Patel International Journal of Innovative Trends in Engineering . 2021,第11期

机译：AISI 1010温和钢自体钨惰性气体（TIG）焊接对机械强度的影响
5. Experimental investigation of linear friction welding of AISI 1020 steel with pre-heating [J] . Kelly Matthew R., Schmid Steven R., Adams Daniel C., Journal of Manufacturing Processes . 2019,第MARa期

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6. Comparative study of autogenous tungsten inert gas welding and tungsten arc welding with filler wire for dissimilar P91 and P92 steel weld joint [J] . Chandan Pandey, Manas Mohan Mahapatra, Pradeep Kumar, Materials Science and Engineering . 2018,第JANa17期

机译：P91和P92异种钢焊缝自生钨极惰性气体保护焊和钨丝填充焊的比较研究
7. Microstructure, Mechanical and Corrosion Behaviour of Dissimilar Weldments between AISI 304 Stainless Steels and AISI 1020 Carbon Steels Produced by Gas Tungsten Arc Welding Using Different Consumables [C] . W. Chuaiphan, S. Chandra-ambhorn, B. Sornil, International conference on sheet metal;SheMet'09; 20090406-08;20090406-08; Birmingham(GB);Birmingham(GB) . 2009

机译：使用不同消耗品的钨极氩弧焊生产的AISI 304不锈钢和AISI 1020碳钢之间的异种焊缝的组织，力学和腐蚀行为
8. UNDERWATER WELDING OF MILD STEEL: A METALLURGICAL INVESTIGATION OF THE CRITICAL FACTORS [D] . NAGARAJAN, VEDAPURISAN. 1977

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9. An Investigation of Some Health Hazards in an Inert-gas Tungsten-arc Welding-shop [O] . P. J. R. Challen, D. E. Hickish, Joan Bedford 1958

机译：惰性气体钨极电弧焊车间中某些健康危害的调查
10. Comparative Study of Hardfacing of AISI 1020 Steel by Gas Welding and Tig Welding Processes [O] . G.R.C. PRADEEP 2012

机译：气体焊接和TIG焊接工艺对AISI 1020钢硬裂的比较研究
11. Analysis of Cracks in Stainless Steel TIG (Tungsten Inert Gas) Welds. [R] . Nakagaki, M., Marschall, C., Brust, F. 1986

机译：不锈钢TIG（钨极惰性气体）焊缝裂纹分析。

Experimental Investigation on Autogenous Tungsten Inert Gas (TIG) Welding of AISI 1020 Mild Steel

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