| 1 |
Effects of non‑magnetic carbon nanotubes on the performance and stability of magnetorheological fluids containing FeCo‑deposited carbon nanotubes
Cho SW, Kim HY, Kim SH, Seo YS
Korea-Australia Rheology Journal, 34(2), 137, 2022 |
| 2 |
Oil spill remediation from water surface using induction of magnetorheological behavior in oil by functionalized sawdust
Kamgar A, Hassanajili S, Unbehaun H
Chemical Engineering Research & Design, 160, 119, 2020 |
| 3 |
Capillary breakup extensional magnetorheometry
Sadek SH, Najafabadi HH, Galindo-Rosales FJ
Journal of Rheology, 64(1), 55, 2020 |
| 4 |
Experimental results on a hydrostatic bearing lubricated with a magnetorheological fluid
Lampaert SGE, van Ostayen RAJ
Current Applied Physics, 19(12), 1441, 2019 |
| 5 |
Controlled synthesis of CoFe2O4/MoS2 nanocomposites with excellent sedimentation stability for magnetorheological fluid
Wang G, Zhou F, Lu Z, Ma Y, Li X, Tong Y, Dong X
Journal of Industrial and Engineering Chemistry, 70, 439, 2019 |
| 6 |
Facile synthesis of hierarchically structured flower-like Fe3O4 microspheres for high-performance magnetorheological fluids
Wang G, Zhao D, Li N, Zeng Y, Han S, Ma Y, Dong X, Yu R
Journal of Industrial and Engineering Chemistry, 79, 217, 2019 |
| 7 |
Effect of medium viscosity on rheological characteristics of magnetite-based magnetorheological fluids
Esmaeilnezhad E, Hajiabadi SH, Choi HJ
Journal of Industrial and Engineering Chemistry, 80, 197, 2019 |
| 8 |
Magnetorheological characteristics of carbonyl iron microparticles with different shapes
Lee JY, Kwon SH, Choi HJ
Korea-Australia Rheology Journal, 31(1), 41, 2019 |
| 9 |
Steady-shear response of magnetorheological fluid containing coral-shaped yttrium-iron-garnet particles
Anupama AV, Choudhary HK, Kumar R, Kumaran V, Sahoo B
Materials Research Bulletin, 113, 45, 2019 |
| 10 |
Synthesis of highly magnetic Mn-Zn ferrite (Mn0.7Zn0.3Fe2O4) ceramic powder and its use in smart magnetorheological fluid
Anupama AV, Kumaran V, Sahoo B
Rheologica Acta, 58(5), 273, 2019 |
