To meet the various and critical manufacturing requirements including high precision, low
cost, good manufacturability, and more demanding from product service and performance …

This paper reviews the most recent models for description of the anisotropic plastic behavior
and formability of sheet metals. After a brief review of classic isotropic yield functions, recent …

A new approach—radial Lorentz force augmented deep drawing—has been developed to
enhance the material flow of the flange in an electromagnetically deep drawing process, by …

The constitutive behavior of a rare-earth magnesium alloy ZEK100 rolled sheet is studied at
room temperature over a wide range of strain rates. This alloy displays a weakened basal …

A method for forming panels through the electromagnetic incremental forming (EMIF)
process with coil shifting is presented in this study. The forming effect of the panels under …

Electromagnetically assisted sheet metal stamping (EMAS) is one of promising forming
methods for aluminum alloys. In this study, tensile properties of AA5182 aluminum alloys in …

Springback is an inevitable defect of aluminum alloy sheet after conventional stamping
process, which directly has an influence on the forming accuracy of part. For a surface part of …

In this paper, specimens were first pre-stretched to different pre-strain coefficients (0, 0.4 and
0.8) under quasi-static tensile for AA6061-O aluminum alloy. Then, the specimens with …

The microstructure, texture and mechanical properties of annealed 5A02 Al alloy tubes after
electromagnetic bulging have been systematically studied using transmission electron …

Electromagnetic forming (EMF) is a high strain rate forming technology which can effectively
deform and shape high electrically conductive materials at room temperature. A field shaper …