Analysis of Dissimilar Welding Joint between Inconel 718 and AISI 316L by GTAW Multipass Process

AISI 316L steel and Inconel 718 are metals of wide application in industries. The study of dissimilar welding between these two materials is technologically important to improve their joint performance. We focused this study on the evaluation of the dissimilar weldability of these materials. Three s...

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Bibliographic Details
Published inSoldagem & Inspeção Vol. 27; p. 1
Main Authors Silva, Rafaela dos Santos, Demarque, Rudineli, Silva, Leonardo Martins da, Castro, José Adilson de
Format Journal Article
LanguageEnglish
Portuguese
Published Sao Paulo Associacao Brasileira de Soldagem 2022
Associação Brasileira de Soldagem
Subjects
Austenite
Austenitic stainless steels
Delta ferrite
Dendritic structure
Dilution
Dissimilar materials
Dissimilar metals
Gas tungsten arc welding
Heat treating
Laves phase
METALLURGY & METALLURGICAL ENGINEERING
Microhardness
Nickel base alloys
Process parameters
Superalloys
Weld metal
Weld metal pool
Welded joints
Welding parameters
Austenitic stainless steel
Aço inoxidável austenítico
Fase laves
Laves phase
Multipass welding
Dissimilar welding
Soldagem multipasse
Superligas
Soldagem dissimilar
Superalloys
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Summary:AISI 316L steel and Inconel 718 are metals of wide application in industries. The study of dissimilar welding between these two materials is technologically important to improve their joint performance. We focused this study on the evaluation of the dissimilar weldability of these materials. Three samples of AISI 316L and Inconel 718 welded using a multipass GTAW (Gas Tungsten Arc Welding) process with different parameters were analyzed. The microstructural characterization, measurements of the volumetric fraction of the δ ferrite and Laves phase, the spacing between austenite dendrites, in addition to measurement and analysis of dimensions of the welding zones and the microhardness were performed. The measurement of the weld metal dimensions and the dendrite spacing showed that higher heat inputs increased the dilution zones and the spacing between austenite dendrites. The volumetric fraction of the δ ferrite decreased with the increase of heat input, while the Laves phase fraction increased. The microhardness presented significant variation in the weld pool due to changes in the phases and composition, as evidenced by EDS analysis in the dissimilar joints. Resumo: O aço AISI 316L e Inconel 718 são metais de ampla aplicação na indústria. O estudo da soldagem dissimilar entre esses dois materiais é tecnologicamente importante para melhorar o desempenho da junta. Concentramos este estudo na avaliação da soldabilidade dissimilar desses materiais. Três amostras de AISI 316L e Inconel 718 soldadas usando processo multipass GTAW (Gas Tungsten Arc Welding) com diferentes parâmetros foram analisadas. Foram realizadas caracterização microestrutural, medidas da fração volumétrica da ferrita δ e fase Laves, espaçamento entre as dendritas de austenita, além da medição e análise das dimensões do metal de solda e da microdureza. A medição das dimensões do metal de solda e do espaçamento entre as dendritas mostrou que maiores aportes térmicos aumentaram as zonas fundidas e o espaçamento entre as dendritas de austenita. A fração volumétrica de ferrita δ diminuiu com o aumento do aporte térmico, enquanto que a fração da fase Laves aumentou. A microdureza apresentou variação significativa na poça de fusão devido a mudanças nas fases e na composição, conforme evidenciado pela análise de EDS nas juntas dissimilares.
ISSN:0104-9224
1980-6973
1980-6973
DOI:10.1590/0104-9224/si27.09