Designing an optimum pulsed magnetic field by a resistance/self-inductance/capacitance discharge system and alignment of carbon nanotubes embedded in polypyrrole matrix

Abstract: In this work, an optimized pulsed magnetic field production apparatus is designed based on a RLC (Resistance/Self-inductance/Capacitance) discharge circuit. An algorithm for designing an optimum magnetic coil is presented. The coil is designed to work at room temperature. With a minor physical reinforcement, the magnetic flux density can be set up to 12 Tesla with 2 ms duration time. In our design process, the magnitude and the length of the magnetic pulse are the desired parameters. The magnetic field magnitu… Show more

“…Electrical, mechanical and thermal constraints are applied in the design process. The detailed design procedure of magnetic coil and pulsed magnetic fields apparatus are described elsewhere [25]. Figure 1b shows the cross-section of the magnetic coil with a minor mechanical reinforcement.…”

Influence of the concentration of carbon nanotubes on electrical conductivity of magnetically aligned MWCNT–polypyrrole composites

“…Electrical, mechanical and thermal constraints are applied in the design process. The detailed design procedure of magnetic coil and pulsed magnetic fields apparatus are described elsewhere [25]. Figure 1b shows the cross-section of the magnetic coil with a minor mechanical reinforcement.…”

Influence of the concentration of carbon nanotubes on electrical conductivity of magnetically aligned MWCNT–polypyrrole composites

Effect of High-Gradient Magnetic Field on Electrical Property of Carbon Nanotube-Polypyrrole Composite; Nanotube Separation Mechanism

Effect of High Magnetic Pulse Iteration on Electrical Property of CNT-Polypyrrole Composite: Alignment Mechanism