Electromagnetic forming is an impulse or high-speed forming technology using pulsed
magnetic field to apply Lorentz'forces to workpieces preferably made of a highly electrically …

Magnesium alloys are an ideal candidate due to their low density in comparison to
aluminum and steel alloys when designing a vehicle with lower weight and therefore …

A series of high-rate electromagnetic-forming experiments are presented that consider free-
forming and two configurations of cavity fill operations, one with a flat-bottomed die and the …

High velocity deformation can be quite effective in increasing the forming limits of metal
sheets as well as effectively treating some other common metal forming problems, such as …

High velocity electromagnetic forming can lead to better formability along with additional
benefits. The spatial distribution of forming pressure in electromagnetic forming can be …

This paper is concerned with the uniaxial tensile properties and formability of steel sheets in
relation to the strain rate effect. The elongation at fracture for CQ increases at a high strain …

Pulsed electromagnetic forming is based on high-voltage discharge of capacitors through a
coil. An intense transient magnetic field is generated in the coil and through interaction with …

Electrohydraulic forming (EHF) is based upon the electro-hydraulic effect: a complex
phenomenon related to the discharge of high voltage electrical current through a liquid. In …

A study of the effect of tool–sheet interaction on damage evolution in electromagnetic
forming is presented. Free form and conical die experiments were carried out on 1 mm …

Large parts cannot be shaped by conventional electromagnetic forming method due to the
limitation of the strength of working coil and the capacity of capacitor bank. In this paper …