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1	Stress relief cracking in copper-precipitation strengthened HSLA-100 steel McNutt, Steven A. 12 1900 (has links) Approved for public release; distribution is unlimited / The US Navy is currently developing a new family of high-strength , low-alloy steels which derive a significant portion of their strength from copper precipitation. These highly weldable steels require little or no preheat. resulting in substantial cost savings. The first of these steels. HSLA-80, has been certified for ship construction, but recent studies have indicated some susceptibility to stress relief cracking in weldments. HSLA-100, a modification of HSLA-80, is now being considered for several higher-strength naval structures. Stress-relief cracking has not been studied previously in this steel and is the subject of investigation in this work. The steel weldments were loaded below their yield strength, heated to temperatures of 550°-650° C, and permitted to stress relieve for one hour. At all temperatures, the steel exhibited susceptibility to stress relief cracking in certain stress ranges. Optical and scanning electron microscopy exhibited intergranular cracking which always traversed the coarse-grained region of the heat-affected zone. Auger and transmission electron microscopy indicated high concentrations of alloying elements at the grain boundaries. Stress-relief cracking was associated with the diffusion of alloying elements to the prior austenite grain boundaries. / http://archive.org/details/stressreliefcrac00mcnu / Captain, Canadian Forces Stress relief cracking HSLA-100 steel Copper precipitation strengthened steel
2	Phase Transformation Behavior and Stress Relief Cracking Susceptibility in Creep Resistant Steels Strader, Katherine C. January 2014 (has links) No description available. Metallurgy Materials Science stress-relief cracking stress relief cracking SRC creep resistant steel welds gas tungsten arc welding GTAW reheat cracking phase transformation CCT continuous cooling transformation fossil power plants T23 T24 T12 T22 CGHAZ Gleeble
3	Stress Relief Cracking in Low Alloy Creep Resistant Steels Sarich, Conner M. January 2021 (has links) No description available. Engineering Materials Science Metallurgy Stress relief cracking reheat cracking metallurgy creep resistant steel welding post weld heat treatment carbides
4	Welding Metallurgy of Nickel-Based Superalloys for Power Plant Construction Tung, David C. January 2015 (has links) No description available. Materials Science Metallurgy Welding Metallurgy Stress Relaxation Cracking Stress Relief Cracking 740 282 617 AUSC Advanced Ultra Supercritical PWHT Stress Relaxation Testing Stress Relief Testing Compact Tension Samples Residual Stress Pre-Compression Superalloy
5	Weldability Evaluation in Autogenous Welds of Alloys 230, 800H, and 825 Suh, Sanghyun January 2016 (has links) No description available. Metallurgy Materials Science solidification cracking hot cracking cast pin tear test ss-dta thermo-calc stress relief cracking gleeble nickel based alloys ni based alloys autogenous weld tensile test characterization

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