Modeling of Magnetic Particle Suspensions for Simulations
portes grátis
Modeling of Magnetic Particle Suspensions for Simulations
Satoh, Akira
Taylor & Francis Ltd
03/2021
380
Mole
Inglês
9780367782627
15 a 20 dias
700
Descrição não disponível.
General Remarks. Forces, Energies and Torques Acting on Magnetic Particles. Modeling of Magnetic Particles for Particle-Based Simulations. Two Coordinate Systems for Description of Particle Orientation. Criterion of Particle Overlap. Particle-Based Simulation Methods. Strategy of Simulations. Description of System Characteristics. Several Examples of Simulations. Topics of Current Applications.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
External Magnetic Fi Eld;Magnetic Moment;spherical, spherocylinder, disk-like, cube-like particles;MC;particle orientation;Magnetic Moment Direction;particle overlap;Steric Layer;Monte Carlo method, Brownian method, Lattice Boltzmann method, particle simulation methods/strategies;Magnetic Fi Eld;Magnetic Particle Suspension;Radial Distribution Function;Magnetic Particle;Absolute Coordinate System;Cluster Size Distribution;Simple Shear Fl Ow;Order Parameter;Rotational Brownian Motion;Axisymmetric Particle;Diffusion Coeffi Cients;Brownian Relaxation;Spheroidal Particle;Mathematical Expression;Hematite Particles;Brownian Dynamics Methods;Magnetic Composite Particles;Lattice Boltzmann Method;Rotational Magnetic Fi Eld;Orientational Distribution Function
General Remarks. Forces, Energies and Torques Acting on Magnetic Particles. Modeling of Magnetic Particles for Particle-Based Simulations. Two Coordinate Systems for Description of Particle Orientation. Criterion of Particle Overlap. Particle-Based Simulation Methods. Strategy of Simulations. Description of System Characteristics. Several Examples of Simulations. Topics of Current Applications.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
External Magnetic Fi Eld;Magnetic Moment;spherical, spherocylinder, disk-like, cube-like particles;MC;particle orientation;Magnetic Moment Direction;particle overlap;Steric Layer;Monte Carlo method, Brownian method, Lattice Boltzmann method, particle simulation methods/strategies;Magnetic Fi Eld;Magnetic Particle Suspension;Radial Distribution Function;Magnetic Particle;Absolute Coordinate System;Cluster Size Distribution;Simple Shear Fl Ow;Order Parameter;Rotational Brownian Motion;Axisymmetric Particle;Diffusion Coeffi Cients;Brownian Relaxation;Spheroidal Particle;Mathematical Expression;Hematite Particles;Brownian Dynamics Methods;Magnetic Composite Particles;Lattice Boltzmann Method;Rotational Magnetic Fi Eld;Orientational Distribution Function