Ontology type: schema:ScholarlyArticle
2019-02-07
AUTHORSA. Yu. Eroshenko, Yu. P. Sharkeev, I. A. Glukhov, P. V. Uvarkin, A. M. Mairambekova, A. I. Tolmachev
ABSTRACTThe results of investigation of the influence of the structural element size and phase state of the Ti – 45 wt.% Nb and Zr – 1 wt.% Nb binary alloys on their mechanical properties are presented. The structural states of the alloys with the structural elements of different dimensions were formed from the ultrafine-grained state via annealing. The curves of dependence of the yield strength and microhardness on the average size of the structural elements, d –1/2, are obtained using the Hall–Petch relation. It is shown that for the Zr – 1 wt.% Nb alloy, the Hall–Petch relation is fulfilled in the entire range of sizes under study, from ultrafine-grained to finegrained states 0.2–1.9 μm. For the Ti – 45 wt.% Nb alloy, in the analysis of the Hall–Petch relationship within the structural element size range 0.43–45 μm, its phase composition is taken into consideration, specifically, the presence of dispersion-strengthened β-phase grains, α-phase subgrains, nonequilibrium nanosized ω- phase, and the bimodal grain-subgrain structure. More... »
PAGES1-9
http://scigraph.springernature.com/pub.10.1007/s11182-019-01616-z
DOIhttp://dx.doi.org/10.1007/s11182-019-01616-z
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