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- Title
Microstructure and Tensile Properties of Dissimilar Weld Joint Between Alloy 800 and Buttered Grade 91.
- Authors
Panneer Selvi, S.; Prasad Reddy, G. V.
- Abstract
Microstructure and tensile properties of dissimilar weld joint (DWJ) between Alloy 800 and 'IN82 buttered' Grade 91 (Gr. 91), fabricated using IN182 electrode and shielded metal arc welding (SMAW) technique, were investigated. Tensile properties of DWJ were evaluated at temperatures 298 K, 773 K and 823 K and at strain rates of 3 × 10–3, 3 × 10–4 and 3 × 10–5 s−1. Dendritic microstructure is observed in both IN82 buttered zone and IN182 weld. In the buttered zone, Type-II boundary (parallel to the fusion line) is noticed near the fusion boundary between buttered zone and Gr. 91. Further, in the heat affected zone of Gr. 91, adjacent to this fusion boundary, maximum hardness in the range of 240–350 VHN is observed up to a distance of ~ 1.25 mm from the fusion boundary, with a peak in hardness of ~ 345 ± 5 VHN at ~ 0.5 mm distance from fusion boundary. Under tensile loading, DWJ exhibits characteristic work hardening and post-necking elongation similar to that of Alloy 800 K at 298 K. At 773 K and 823 K, DWJ retains work hardening and exhibits extended post-necking elongation similar to that in Gr. 91. At high temperatures, yield strength of DWJ is intermediate to that of Gr. 91 and Alloy 800, while ultimate tensile strength of DWJ remains lower than that of the base metals. Similarly, uniform elongation decreases in the order of Alloy 800, DWJ and Gr. 91 at all the test conditions. It must be emphasized that, at high temperatures, DWJ exhibited tensile fractures in Gr. 91 base metal, irrespective of the strain rate. In contrast, at room temperature, tensile failures of DWJ have been predominantly observed in Alloy 800 base metal, except at the lowest strain rate wherein fracture occurred in buttered zone with small fraction of interface between buttered zone and Gr. 91 on the fractured surface.
- Subjects
GREECE; DISSIMILAR welding; SHIELDED metal arc welding; MICROSTRUCTURE; TENSILE strength; STRAIN hardening
- Publication
Metallurgical & Materials Transactions. Part A, 2023, Vol 54, Issue 3, p939
- ISSN
1073-5623
- Publication type
Article
- DOI
10.1007/s11661-022-06941-6