Study of the thermal stability of structure and mechanical properties of submicrocrystalline aluminum alloys Al-2.5Mg-Sc-Zr

A. V. Nokhrin; I. S. Shadrina; V. N. Chuvil'Deev; V. I. Kopylov; A. A. Bobrov; M. Yu Gryaznov; A. N. Sysoev; N. A. Kozlova; M. K. Chegurov; N. N. Berendeev; A. E. Zheleznov; A. V. Piskunov; D. A. Pushkova; A. A. Murashov; D. A. Revva

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Study of the thermal stability of structure and mechanical properties of submicrocrystalline aluminum alloys Al-2.5Mg-Sc-Zr

Journal of Physics: Conference Series (2019) 1347(1)

DOI: 10.1088/1742-6596/1347/1/012058

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Abstract

The paper provides the results of experimental studies of the microstructure, mechanical properties, and corrosion resistance of cast and submicrocrystalline (SMC) aluminum alloys Al-2.5Mg-Sc-Zr with different ratios of scandium and zirconium (Sc + Zr = 0.32 wt.%). SMC structure in alloys was formed by methods of severe plastic deformation: equal-channel angular pressing and rotary swaging. In our paper, we demonstrate that the alloys have high thermal stability - the recrystallization point in SMC alloys is 250-275 °C. We prove that the replacing scandium with zirconium leads to an increase in the thermal stability of the solid solution of scandium in cast and SMC aluminum alloys Al-Mg-Sc-Zr.

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Nokhrin, A. V., Shadrina, I. S., Chuvil’Deev, V. N., Kopylov, V. I., Bobrov, A. A., Gryaznov, M. Y., … Revva, D. A. (2019). Study of the thermal stability of structure and mechanical properties of submicrocrystalline aluminum alloys Al-2.5Mg-Sc-Zr. In Journal of Physics: Conference Series (Vol. 1347). Institute of Physics Publishing. https://doi.org/10.1088/1742-6596/1347/1/012058

Study of the thermal stability of structure and mechanical properties of submicrocrystalline aluminum alloys Al-2.5Mg-Sc-Zr

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