Abstract
AbstractThe influence of tempering on high temperature brittle intergranular fracture has been examined in the simulated heat affected zone microstructures of three Mn–Mo–Ni steel alloys, namely, the base alloy and phosphorus doped or phosphorus–sulphur doped base alloy. Crack growth behaviour was determined as a function of stress intensity at 550 and 450°C in high vacuum conditionsfor material as quenched and after tempering at 615°C. The resulting fracture surfaces were examined in detail and analysis of crack tip and general grain boundary chemistry was performed using scanning Auger electron spectroscopy. Microstructural and rheological changes induced by tempering were evaluated via electron microscopy and hardness tests. At 550°C, tempering largely eliminated high temperature brittle intergranular fracture, leaving intergranular microvoid coalescence as the dominant fracture mode. Crack growth rates were attenuated by tempering in alloys susceptible to high temperature brittle intergranular fractur...
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