Titlebook: Magnesium Technology 2022; Petra Maier,Steven Barela,Neale R. Neelameggham Conference proceedings 2022 The Minerals, Metals & Materials So

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书目名称Magnesium Technology 2022影响因子(影响力)学科排名




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书目名称Magnesium Technology 2022被引频次学科排名




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书目名称Magnesium Technology 2022年度引用学科排名




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书目名称Magnesium Technology 2022读者反馈学科排名

ordain

Unlocking the Strengthening Potential of Magnesium Alloys Using Deformation-Induced Clustering and Ping these metals has been remarkably different. While significant improvement has been achieved in developing high strength Al alloys, the anisotropic hexagonal crystal system and complex plasticity mechanisms have made the design of high strength Mg alloys a challenging exercise [.–.).

CHASM

CUB

An Update on Magnesium-Based Powder Metallurgy and Additive Manufacturing Processesis driven by the need for light weighting and/or to achieve higher fuel efficiency. In addition, interest in magnesium alloys as biodegradable metals for use in orthopedics and cardiovascular devices has grown significantly in the last decade because of their biocompatibility and controlled corrosio

外向者

Historical Developments and Status of Carbothermal Reduction Technology to Produce Magnesium Metal end of WWII. Since then, many attempts have been made to demonstrate inherent advantages of CTR: low energy intensity and corresponding economic value proposition by reducing the production costs. The operating paradigms of historical and current attempts used to prove technical feasibility have be

Kidnap

Development of Flame-Retardant Wrought Magnesium Alloys and Application of the Alloys to High-Speed ame retardance. In Japan, the national project of “Innovative Structural Materials R&D” was launched in FY2014. In this project, the development and performance assessment of the flame-retardant wrought Mg alloys for their allocation to high-speed railway bodies were conducted. In the first half of

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Debate

Electrical Resistivity of Binary Mg Alloyshe results revealed Gd had the largest influence on resistivity and Zn had the lowest heat treatments which were performed on the as-cast alloys; it was found that T4 treatment increased the resistivity and a linear relationship between the solute content and resistivity which was observed. During i

小丑

Targeted Mg–Y–Zn Alloy Design Based on Revised LPSO Phase Compositions and Equilibria is most important since different LPSO structures (14H, 18R, and 10H) together with other intermetallics may be formed in such complex Mg-rich alloys. The precise knowledge of phase equilibria and transformations in Mg–Y–Zn alloys is indispensable for targeted alloy design. The experiments and the

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