International Research Journal of Engineering and Technology (IRJET) Volume: 05 Issue: 11 | Nov 2018 www.irjet.net
e-ISSN: 2395-0056 p-ISSN: 2395-0072
To Study the Mechanical Properties of Aluminum Alloy AA-6061 Welded using TIG Welding Process at Different Welding Current Ishteyaque Ahmad1, Somvir Arya2 1Research
Scholar, Mechanical Engineering Department, Indus Institute of Engineering & Technology, Kinana (Jind) Haryana India 2Assistant Professor & Head, Mechanical Engineering Department, Indus Institute of Engineering & Technology, Kinana (Jind) Haryana India ---------------------------------------------------------------------------***----------------------------------------------------------------------
Abstract: Tungsten Inert Gas welding is the process in which heat is produced from an arc between the non-consumable tungsten electrode and the work piece.TIG welding is the widely used technique for the joining of ferrous and non-ferrous metals. The molten metal, tungsten electrode and the welding zone are shielded from the atmospheric air by a stream of inert gas through the welding torch. During the TIG welding the filler wire may or may not be use. The accuracy and quality of welded joints largely depends upon type of power supply, welding speed, type of inert gas used for shielding and also the gas flow rate. This paper deals with the study of Micro-structural and mechanical properties of the welded joints of the aluminum alloy AA-6061 welded by Tungsten Inert Gas(TIG) welding by using welding current as varying parameter. Keywords: Mechanical, Micro-structure, Properties, Welding, Al 1. Introduction: Welding is a process of joining two similar or dissimilar metals by fusion with or without the applications of pressure and with or without the use of filler metal. Weld ability of a material depends on different factors like the metallurgical changes that occur during welding , changing in the hardness at the welding zone due to rapid solidification, extent of oxidation due to reaction of materials with the atmospheric oxygen and tendency of crack formation on the welding joint position. The welding phenomenon comes in existence from “Bronze Age” about 2000 year ago. But the Egyptian people were started to weld the iron pieces together during the Iron Age. Mainly the TIG welding technique was demonstrated firstly by Russell Meredith in 1930 during the Second World War for the purpose of welding of aluminum and magnesium in air craft industry.TIG welding is mostly used in the modern industry, especially for aluminum stainless steel, titanium alloy and other materials for high quality weld. TIG welding process has some advantages including as high quality weld, easy control of welding parameters. 1.1 Different Types of Welding:
Arc Welding Electric Resistance Welding Gas Welding Solid State Welding High Beam Energy Welding
1.2 Tungsten Inert Gas welding / TIG TIG (Tungsten Inert Gas) welding is also known as GTA (Gas Tungsten Arc) in USA and WIG (Wolfram Inert Gas) in Germany is a welding process in which a non-consumable tungsten electrode is used to make a weld. TIG welding process used for high quality welding of a variety of materials, stainless steel, titanium and aluminum. During the TIG (as shown in the fig. 1) welding inert gas is used to shield the welding zone from the atmosphere. An electric arc is produced between the work piece and the electrode with the continuous supply of current from the power source. During the TIG welding there may or may not be the use of a filler electrode. The filler rods are used to provide the welding bead during the joining two pieces of a metal together. TIG welding also helps in the joining of the dissimilar metals with each other. The temperature of the electric arc exceeds 3600 °C. The intense heat is focused on a very small area. TIG welding is a quick, clean and free of slag and sputter.
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