@misc{10481/111379,
year = {2018},
month = {11},
url = {https://hdl.handle.net/10481/111379},
abstract = {A double-gap magnetorheological (MR) cell is designed, constructed, and validated using finite element method magnetostatics simulations,
computational fluid dynamics calculations, and experimental data with Newtonian fluids and conventional MR fluids for a range of particle
concentrations and external magnetic field strengths. This new cell is a generalization of the twin-gap device. It is capable of reaching very
large magnetic field strengths and shear rates, avoiding normal force overload. More importantly, it is optimized for magnetic field homogeneity.},
organization = {MINECO MAT 2016-78778-R},
organization = {PCIN-2015-051},
organization = {European Regional Development Fund (ERDF)},
organization = {Junta de Andalucía (P11-FQM-7074)},
organization = {Chinese State Scholarship},
organization = {FPU14/01576},
publisher = {Society of Rheology},
title = {Double-gap plate–plate magnetorheology},
doi = {10.1122/1.5052247},
author = {Morillas Medina, José Rafael and Yang, Jianjian and Vicente Álvarez-Manzaneda, Juan De},
}