In this study, the fatigue crack initiation behavior of cast 319-T7 aluminum alloy at 25°C and 150°C was examined based on detailed scanning electron microscopy (SEM) fractographic analysis. The stress-life (S-N) type, uniaxial fatigue tests were conducted for the 319-T7 specimen at a stress ratio (R) of À1 and at 25°C and 150°C, and the fractographs of all the fatigued specimens were documented using SEM. At 25°C, all the fatigue cracks for the specimens initiated from porosity located at or near the specimen surface. At 150°C, the fatigue crack initiation occurred at porosities near surface for 11 out of 29 specimens. For those specimens with relatively small or no porosities near surface and fatigued at 150°C, the fatigue crack initiation by slip band mechanism tended to occur and coarse transgranular facets were observed. The oxide film was often observed on the coarse transgranular facet for the those specimens using the slip band mechanism. The fatigue crack initiation mechanism for cast 319-T7 alloy at 25°C and 150°C was proposed based on extensive fractographic analysis results.
Effects of various heat treatment processes, including "Q/T (quenching and tempering)", "Q/CT/T (Quenching, cryogenic treatment and tempering)", "Q/T (quenching and tempering) + Ti -nitriding" and "Q/CT/T (Cryogenic treatment and tempering) + Ti -nitriding", on S - N fatigue behavior of AISI D2 tool steel were investigated. The optical micrographs and Vicker's hardness values at near surface and core area were examined for each specimen. Uniaxial fatigue tests were performed by using an electro-magnetic resonance fatigue testing machine at a frequency of 80 Hz and an R ratio of -1. The overall resistance to fatigue tends to decrease significantly with Ti -nitriding treatment compared to those for the general Q/T and Q/CT/T specimens. The reduced resistance to fatigue with Ti -nitriding is discussed based on the microstructural and fractographic analyses.
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