Designing new low alloyed Mg—RE alloys with high strength and ductility via high-speed extrusion
Two new low-alloyed Mg—2RE—0.8 Mn—0.6 Ca—0.5 Zn (wt%, RE= Sm or Y) alloys are
developed, which can be produced on an industrial scale via relatively high-speed …
developed, which can be produced on an industrial scale via relatively high-speed …
Designing new low alloyed Mg—RE alloys with high strength and ductility via high-speed extrusion
J Xie, Z Zhang, S Liu, J Zhang, J Wang… - … Journal of Minerals …, 2023 - search.proquest.com
Two new low-alloyed Mg—2RE—0.8 Mn—0.6 Ca—0.5 Zn (wt%, RE= Sm or Y) alloys are
developed, which can be produced on an industrial scale via relatively high-speed …
developed, which can be produced on an industrial scale via relatively high-speed …
Designing new low alloyed Mg—RE alloys with high strength and ductility via high-speed extrusion
J Xie, Z Zhang, S Liu, J Zhang, J Wang… - … Journal of Minerals …, 2023 - ui.adsabs.harvard.edu
Two new low-alloyed Mg—2RE—0.8 Mn—0.6 Ca—0.5 Zn (wt%, RE= Sm or Y) alloys are
developed, which can be produced on an industrial scale via relatively high-speed …
developed, which can be produced on an industrial scale via relatively high-speed …
Designing new low alloyed Mg–RE alloys with high strength and ductility via high-speed extrusion
J Xie, Z Zhang, S Liu, J Zhang, J Wang… - … Journal of Minerals …, 2023 - ijmmm.ustb.edu.cn
Two new low-alloyed Mg–2RE–0.8 Mn–0.6 Ca–0.5 Zn (wt%, RE= Sm or Y) alloys are
developed, which can be produced on an industrial scale via relatively high-speed …
developed, which can be produced on an industrial scale via relatively high-speed …