Article: Evaluation of mechanical and metallurgical properties of SS 304-CP copper dissimilar metal joint by innovative pulsed-GTAW process Journal: International Journal of Materials Engineering Innovation (IJMATEI) 2022 Vol.13 No.4 pp.291 - 305 Abstract: The dissimilar joining of stainless steel (AISI 304SS) and commercially pure copper was carried out with an innovative pulsed gas tungsten arc welding (P-GTAW) process without using any type of filler material. The use of no filler metal technique leads to a greener and sustainable manufacturing practice. A Taguchi orthogonal array-based design matrix (L16:34) was developed for the whole experimentation. An acceptable top surface integrity was measured as 120-230 µm by the surface profilometer. The utmost tensile stress of the weld was achieved as 276 MPa. The ductile fracture refers to numerous dimples found on the fracture surface and concludes that failure occurs at the copper side. The microhardness in the fusion zone was observed 140~200 HV and the lowest value was recorded at the heat affected zone (HAZ) of copper compared to other zones. The microstructure analysis shows the proper mixing of Fe and Cu in the fusion zone. Inderscience Publishers - linking academia, business and industry through research

Title: Evaluation of mechanical and metallurgical properties of SS 304-CP copper dissimilar metal joint by innovative pulsed-GTAW process

Authors: Bikash Ranjan Moharana; Susanta Kumar Sahoo; Kamalakanta Muduli

Addresses: Department of Mechanical Engineering, C.V. Raman Global University, Bidyanagar, Mahura, Janla, Bhubaneswar, Odisha-752 054, India ' Department of Mechanical Engineering, National Institute of Technology, Rourkella, India ' Department of Mechanical Engineering, Papua New Guinea University of Technology, Lae, Morobe Province, Papua New Guinea

Abstract: The dissimilar joining of stainless steel (AISI 304SS) and commercially pure copper was carried out with an innovative pulsed gas tungsten arc welding (P-GTAW) process without using any type of filler material. The use of no filler metal technique leads to a greener and sustainable manufacturing practice. A Taguchi orthogonal array-based design matrix (L16:34) was developed for the whole experimentation. An acceptable top surface integrity was measured as 120-230 µm by the surface profilometer. The utmost tensile stress of the weld was achieved as 276 MPa. The ductile fracture refers to numerous dimples found on the fracture surface and concludes that failure occurs at the copper side. The microhardness in the fusion zone was observed 140~200 HV and the lowest value was recorded at the heat affected zone (HAZ) of copper compared to other zones. The microstructure analysis shows the proper mixing of Fe and Cu in the fusion zone.

Keywords: pulsed-GTAW; dissimilar welding; design matrix; microstructure; tensile stress; microhardness; micro-channel.

DOI: 10.1504/IJMATEI.2022.126516

International Journal of Materials Engineering Innovation, 2022 Vol.13 No.4, pp.291 - 305

Received: 12 Nov 2021
Accepted: 18 Dec 2021
Published online: 27 Oct 2022 *

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Title: Evaluation of mechanical and metallurgical properties of SS 304-CP copper dissimilar metal joint by innovative pulsed-GTAW process

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