Journal of Welding Science

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Abedi Chermahini H, Atapoor M, Esmailzadeh M. Microstructural and corrosion evaluation of AH36 low-alloy steel cladded with nickel and copper alloy filler wires using GTAW. JWSTI 2024; 10 (2) :121-130
URL: http://jwsti.iut.ac.ir/article-1-478-en.html

Nowadays, in order to achieve the combined properties of multiple alloys for important applications such as automotive and marine industries, the use of cladding method is common. Cladding, which is a type of coating through welding, is one of the widely used methods for surface modification of metal parts and sheets in industry. AH36 low-alloy steel is a steel used in shipbuilding, known for its toughness and good corrosion resistance, making it a significant condidcate among other steels used in this industry. In this research, to enhance the corrosion properties of AH36 steel, the cladding process was performed using Gas Tungsten Arc Welding (GTAW) with copper/nickel filler wire. Two samples, one from the coated (weld metal) and one from the uncoated (base metal) sections, were prepared and subjected to microstructural and corrosion investigations. The results indicated an increase in grain size in the heat-affected zone of the weld metal sample, leading to a reduction in mechanical properties. The cyclic polarization test showed that the base metal had higher susceptibility to pitting corrosion compared to the weld metal. Additionally, the weld metal exhibited a higher tendency for repassivation or repairing of the pits. The results of the electrochemical impedance spectroscopy (EIS) test indicated that both the base metal and weld metal samples had a single-loop equivalent circuit. The larger diameter of the Nyquist semicircle for the base metal compared to the weld metal suggests better uniform corrosion behavior of the base metal relative to the weld metal.