Indian Welding Journal

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Design of Stainless Steel Welding Consumables for Cryogenic Service


Affiliations
1 Materials Development Division, Indira Gandhi Centre for Atomic Research, Kalpakkam 603 102, India
2 Kemtrode Pvt. Ltd,, Bangalore 560 001, India
     

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Austenitic stainless steels are commonly used as structural materials for cryogenic temperature application. The components fabricated using welding require that the welds should have desirable properties at cryogenic temperatures. This necessitates' the selection of right type of electrodes to provide a weld metal with beneficial properties such as tensile strength and impact properties. The various factors which characterize the weld metal such as solidification mechanism, optimum control of delta ferrite, resistance to hot cracking, minimum inclusion content, type of coating, heat input and the addition of rare earths are discussed with a view to elucidating the effect of these m improving the weld metal pertormance.
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  • Design of Stainless Steel Welding Consumables for Cryogenic Service

Abstract Views: 231  |  PDF Views: 5

Authors

S. Chakravarty
Materials Development Division, Indira Gandhi Centre for Atomic Research, Kalpakkam 603 102, India
T. P. S. Gill
Materials Development Division, Indira Gandhi Centre for Atomic Research, Kalpakkam 603 102, India
A. K. Joseph
Kemtrode Pvt. Ltd,, Bangalore 560 001, India
Pennathur
Kemtrode Pvt. Ltd,, Bangalore 560 001, India
N. T. Sebastian
Kemtrode Pvt. Ltd,, Bangalore 560 001, India

Abstract


Austenitic stainless steels are commonly used as structural materials for cryogenic temperature application. The components fabricated using welding require that the welds should have desirable properties at cryogenic temperatures. This necessitates' the selection of right type of electrodes to provide a weld metal with beneficial properties such as tensile strength and impact properties. The various factors which characterize the weld metal such as solidification mechanism, optimum control of delta ferrite, resistance to hot cracking, minimum inclusion content, type of coating, heat input and the addition of rare earths are discussed with a view to elucidating the effect of these m improving the weld metal pertormance.