Investigating microstructural evolution and wear resistance of AISI 316L stainless steel cladding deposited over mild steel using constant current GMAW and pulsed current GMAW processes-Reference-Cited by-同舟云学术

Investigating microstructural evolution and wear resistance of AISI 316L stainless steel cladding deposited over mild steel using constant current GMAW and pulsed current GMAW processes

Published:2023-06-02 Issue:7 Volume:65 Page:1069-1084
ISSN:0025-5300
Container-title:Materials Testing
language:en
Short-container-title:

Author:

Jayavelu Mani¹,Kasi Srinivasan²,Visvalingam Balasubramanian²,Dara Sudhakara³,Nagasai Bellamkonda Prasanna⁴

Affiliation:

1. Manufacturing Engineering , Annamalai University , Annamalai Nagar, 608002 , Chidambaram , India

2. Department of Manufacturing Engineering, Annamalai University , Annamalai Nagar 608002 , Chidambaram , Tamil Nadu , India

3. Department of Mechanical Engineering , Siddharth Institute of Science and Technology , Puttur , Andhra Pradesh , India

4. SigmaWeld, Electronics Devices Worldwide Pvt. Ltd. Andheri East , Mumbai , Maharashtra 400093 , India

Abstract

Abstract The main objective of this study is to investigate the microstructure and wear resistance of AISI 316L austenitic stainless steel (ASS) cladding deposited over mild steel (MS) of grade IS 2062 using constant current (CC-GMAW) and pulsed current gas metal arc welding (PC-GMAW) processes. The PC-GMAW process was employed to overcome the problems of wider heat affected zone (HAZ), coarse grained deposited weld metal microstructure, lower penetration depth, higher dilution and reinforcement height encountered in CC-GMAW used for cladding of AISI 316L steel over mild steel. The microstructural features of cladded region were analyzed using optical microscopy (OM). The wear rate of cladded specimens was studied using pin-on-disc method and the morphology of wear surfaces was studied using scanning electron microscopy (SEM). The microhardness distribution of cladded region was analyzed and correlated to the wear performance of cladded specimens. The results showed that PC-GMAW cladding exhibit greater hardness and wear resistance compared to CC-GMAW cladding. It is correlated to the grain refinement offered by current pulsing in weld region of PC-GMAW cladding. The PC-GMAW cladding showed 5.22% increases in weld metal deposition compared to CC-GMAW cladding. The, PC-GMAW cladding showed 23.72% reduction in dilution of weld compared to CC-GMAW cladding. The PC-GMAW cladding disclosed 15.83 improvement in weld overlay hardness compared to CC-GAMW cladding. The PC-GMAW showed 20.18% average reduction in wear rate compared to CC-GMAW cladding.

Publisher

Walter de Gruyter GmbH

Subject

Mechanical Engineering,Mechanics of Materials,General Materials Science

Link

https://www.degruyter.com/document/doi/10.1515/mt-2022-0369/pdf

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