Failure in Fe-Ni-Cu-Mo sintered steel under tensile loading
DUDROVA, E., KABATOVA, M., KUPKOVA, M.
vol. 40 (2002), no. 1, pp. 24 - 34
Abstract
 Microscopic crack initiation and crack propagation processes have been studied in a sintered Fe-Ni-Cu-Mo alloyed steel during tensile testing. As-sintered and heat-treated specimens with density of ~7.15 g.cm-3 were pressed from Fe-4%Ni-1.5%Cu-0.5%Mo diffusion alloyed powder (Distaloy AE) with addition of 0.7 % graphite. The microstructure of both as-sintered and heat-treated materials was characterised. Static tensile tests were carried out on the specimens with polished and etched surface under a gradually increased loading. The microcrack initiation and propagation processes in as-sintered and heat-treated microstructure were analysed by light and scanning electron microscopy. The observations showed that failure mechanisms are strongly dependent on matrix microstructure and pores localisation. Key words
failure, Fe-Ni-Cu-Mo sintered steel, microstructure, tensile testing, microcrack initiation and propagation ![[open article.pdf]](full_yes.gif) Full text (1089 KB)
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