The superplastic behavior of medical magnesium alloys is reviewed in this overview article.
Firstly, the basics of superplasticity and superplastic forming via grain boundary sliding …

The climb-controlled dislocation creep behavior was investigated in Mg–Al–Zn alloys of
AZ31, AZ61 and AZ91 with different aluminum contents. The flow stress increased with the …

Attempts to expand manufacturing capabilities of magnesium-based sheet materials are
described. The as-cast ZEK100 (Mgsingle bond1. 2Znsingle bond0. 35Zrsingle bond0 …

Super pliancy is a reasonable method for framing complex-molded structures. The strategy
has the benefits of convey in uncommon formability and possibly giving great dimensional …

综述不同成形条件下的镁合金激活能及本构方程, 对粗晶和细晶镁合金的超塑性变形机理予以
详细的介绍. 并对常见的几种镁合金超塑性加工方式进行探讨, 并概述超塑性镁合金的发展趋势 …

Utilization of wrought magnesium sheet alloys for structural components in transportation
industries has been severely limited by poor room-temperature formability, a result of the slip …

Accurate prediction of strain fields and cycle times for fine-grained Mg alloy sheet forming at
high temperatures (400-500° C) is severely limited by a lack of accurate material constitutive …

In this work, the gas forming of AZ31 magnesium alloy 0.75-mm-thick sheets at elevated
strain rates (fast gas forming) is investigated through an experimental-numerical approach …

Finite element (FE) simulations will be vitally important to advancing magnesium alloy sheet
forming technologies for vehicle component manufacturing. Although magnesium alloy …

Magnesium alloys are attractive for lightweight structural applications in the transportation
industry because of their low density and high specific strength and stiffness [1]. With an …