Microstructural Evolution and Aggregation Kinetics of Magnetorheological Suspensions Based on Molecular Dynamics Simulations

Magnetorheological (MR) fluids have been regarded as a promising intelligent material with wide application prospect due to their excellent mechanical property and efficient controllability. The bulk rheology of MR fluids is closely related to their microstructures. In this context, LAMMPS is used to investigate the microstructural evolution of MR suspensions with different volume fractions under different magnetic fields, based on which the macro mechanical property of MR suspensions was analyzed. Then qualitative observation and quantitative analysis were conducted on the microstructures of MR suspensions with different simulation parameters (volume fraction, magnetic fields and shear strain). The associated mechanism was revealed and the statistical property of chain dip angles was addressed. This research has provided a theoretical basis for further revealing the correlation of microstructural evolution and macro mechanical property of MR fluids as well as designing and optimizing MR fluid materials and devices. © 2021, Materials Review Magazine. All right reserved.