Conveners
Fri-Af-Po.07 - High Field Pulsed Magnets II
- Yuhu Zhai (Princeton Plasma Physics Laboratory)
- Luigi Reccia (Fusion for Energy)
Electromagnetic forming (EMF), renowned for its high forming speed and strain rate advantages, has been extensively applied in industrial manufacturing, transportation, and other sectors. The principle of EMF involves generating an electromagnetic force on the workpiece using a pulsed magnet, driving the material to undergo plastic deformation. However, traditional solenoid-based forming...
The structure of the pulsed vector magnet has been optimally designed at the wuhan national high magnetic field center (WHMFC). The pulse vector magnet consists of a magnet that generates a magnetic field in the z-direction and a magnet that generates a magnetic field in the x-direction. the z-direction magnet is in the center hole of the x-direction magnet. The two magnets are held together...
Solenoidal high-field pulsed magnets typically employ layered reinforcement techniques to mitigate the substantial Lorentz forces acting on the conductors. The thickness of each reinforcement layer must be optimized through stress analysis to achieve a uniform and reasonable stress distribution. Although commercial finite element analysis (FEA) software can accurately calculate the stresses...
To improve visualization capability, simulation effort, and experiment efficiency for the Pulsed High Magnetic Field Facility (PHMFF) at Wuhan National High Magnetic Field Center (WHMFC), an intelligent operation and maintenance method based on digital twin technology is proposed. Reference to standard model, digital twin framework is first described including physical entity, virtual entity,...