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Characterization of internal stresses in Mg-Zn-Y alloy with multimodal microstructure by deformation operando neutron diffraction

変形オペランド中性子回折によるマルチモーダル組織を有するMg-Zn-Y合金の内部応力評価

Harjo, S.   ; Gong, W.   ; 山崎 倫昭*; 川崎 卓郎   ; 相澤 一也  

Harjo, S.; Gong, W.; Yamasaki, Michiaki*; Kawasaki, Takuro; Aizawa, Kazuya

An as-cast sample and two hot-extruded samples with different R values of Mg$$_{97}$$Zn$$_{1}$$Y$$_{2}$$ alloy, the $$alpha$$Mg-LPSO alloy containing LPSO of about 25-vol%, were used in tensile deformation operando neutron diffraction experiments. $$alpha$$Mg behaved as the soft phase and LPSO as the hard phase, and hot-extrusion improved the strength of both. At the R value of 5.0, dynamic recrystallization partly occurred in $$alpha$$Mgg creating a bimodal microstructure, consisting of the deformed $$alpha$$Mg microstructure and the recrystallized $$alpha$$Mg microstructure. The yield strength of $$alpha$$Mg was significantly improved due to the optimal effects of dislocation density accumulation and texture development in the deformed $$alpha$$Mg microstructure, and grain refinement in the recrystallized $$alpha$$Mg microstructure.

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