This study addresses the welding challenges encountered when joining Haynes 282, a heat-resistant superalloy, to 3.5NiCrMoV high-strength low alloy steel (HSLA) for advanced power plant applications, particularly in thick-section components like rotors. The project demonstrated successful thick-section dissimilar metal welding up to 76 mm (3 in.) using two techniques: keyhole tungsten inert gas welding and conventional gas tungsten arc welding with Haynes 282 filler metal. Various groove weld geometries were evaluated, supported by computational weld modeling to predict and minimize weld distortion. The results validate these welding approaches for critical power plant components requiring both high-temperature performance and cost-effectiveness.

gas tungsten arc welding, mechanical testing, nickel superalloys, nickel-chromium-molybdenum steel, power plant design, tungsten inert gas welding, weld distortion
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2024
ASM International
Topics
Weld distortion Mechanical testing Chromium steel Superalloys Gas tungsten arc welding Metal inert gas welding