@misc{10481/54821,
year = {2018},
month = {6},
url = {http://hdl.handle.net/10481/54821},
abstract = {We demonstrate a new route to enhance the magnetorheological effect using bimodal
suspensions in the single-multidomain limit. Experimental results are satisfactorily compared to
3D finite element method simulations. The physical reason behind this enhancement is the
coating of the larger particles by the smaller ones due to the remnant magnetization of the latter.},
organization = {This work was supported by MAT 2016-78778-R and PCIN
2015-051 projects (FEDER FUNDS and MINECO, Spain). A
J F Bombard is grateful to FAPEMIG grants: APQ-01824-17,
PEE-00081-16, RED-00144-16, ETC-00043-15, PEP-00231-
15, APQ-00463-11 and RDP-00164-10. J R Morillas
acknowledges FPU14/01576 fellowship.},
publisher = {IOP Publishing},
keywords = {Magnetorheology},
keywords = {Magnetorheological Fluids},
keywords = {Bidisperse},
keywords = {Yield Stress},
keywords = {MR Fluids},
keywords = {Nanoparticles},
keywords = {Composites},
title = {Enhancing magnetorheological effect using bimodal suspensions in the singlemultidomain limit},
author = {Morillas, José R and Bombard, Antonio J F and Vicente Álvarez-Manzaneda, Juan De},
}