Cladding Inconel 625 on cast iron via bypass coupling micro-plasma arc welding

Cladding Inconel 625 on cast iron via bypass coupling micro-plasma arc welding

There is great interest to deposit a layer of Inconel 625 nickel-base super-alloy on the surface of metallic substrate to increase the corrosion resistance for the services in harsh environment. In this work, we use the bypass-coupled micro-plasma arc welding to form a layer of Inconel 625 on the pl...

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Bibliographic Details
Published in:Journal of manufacturing processes Vol. 56; pp. 106 - 115
Main Authors: Huang, Jiankang, Liu, Shien, Yu, Shurong, An, Liang, Yu, Xiaoquan, Fan, Ding, Yang, Fuqian
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-08-2020
Subjects:
Bypass coupling micro-plasma arc
Cladding
Inconel 625
QT-400 nodular cast iron
QT-400 nodular cast iron
Inconel 625
Cladding
Bypass coupling micro-plasma arc
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Summary:There is great interest to deposit a layer of Inconel 625 nickel-base super-alloy on the surface of metallic substrate to increase the corrosion resistance for the services in harsh environment. In this work, we use the bypass-coupled micro-plasma arc welding to form a layer of Inconel 625 on the plate of QT-400 nodular cast iron and study the effect of the bypass current on the topology of the Inconel 625 layer. There exists spatial distribution of dendrites in the cladding layer along the direction normal to the bonding interface between the cladding layer and the plate of QT-400 nodular cast iron. The fusion zone near the interface between the cladding layer and the plate of QT-400 nodular cast iron has the largest Vickers hardness of 630 HV.
ISSN:1526-6125
2212-4616
DOI:10.1016/j.jmapro.2020.03.058