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41. Lim ST, Cho MS, Jang IB et al (2004) Magnetorheological characterization of carbonyl iron
based suspension stabilized by fumed silica. J Magn Magn Mater 282:170
42. Park JH, Kwon MH, Park OO (2001) Rheological properties and stability of
magnetorheological fluids using viscoelastic medium and nanoadditives. Korean J Chem
Eng 18:580
-
585
43. Cho MS, Lim ST, Jang IB et al (2004) Encapsulation of spherical iron-particle with PMMA
and its magnetorheological particles. IEEE Trans Magn 40(4):3036
3038
44. Fang FF, Choi HJ, Choi WS (2010) Two-layer coating with polymer and carbon nanotube on
magnetic carbonyl iron particle and its magnetorheology. Colloid Polym Sci 288:359
-
363
-
45. Charles SW (2002) The preparation of magnetic
fl
uids. In: Odenbach S (ed) Ferro
fl
uids:
magnetically controllable
fl
uids and their applications, vol 594. Lecture notes in physics.
18
46. Bica I, Liu YD, Choi HJ (2013) Physical characteristics of magnetorheological suspensions
and their applications. J Ind Eng Chem 19:394
Springer, Berlin, pp 3
-
406
47. Park BJ, Park CW, Yang SW et al (2009) Core-shell typed polymer coated-carbonyl iron
suspensions and their magnetorheology. J Phys Conf Ser 149:012078
48. Engin T, Evrensel C, Gordanineja F (2005) Numerical simulation of laminar flow of water-
based magneto-rheological fluids in microtubes with wall roughness effect. Int Commun Heat
Mass 32:1016
-
1025
49. Jiang W, Zhang Y, Xuan S et al (2011) Dimorphic magnetorheological fluid with improved
rheological properties. J Magn Magn Mater 323:3246
-
3250
50. Iglesias GR, L
ó
pez-L
ó
pez MT, Dur
á
n JDG et al (2012) Dynamic characterization of
extremely bidisperse magnetorheological
-
159
51. Omidbeygi F, Hashemabadi SH (2012) Experimental study and CFD simulation of rotational
eccentric cylinder in a magnetorheological
fl
uids. J Colloid Interface Sci 377:153
-
2069
52. Serrano AR, Donado F, Rubio-Rosas E (2013) Preparation and characterization of magnetite/
dextran nanocomposite used as a precursor of magnetic
fl
uid. J Magn Magn Mater 324:2062
-
fl
uid. J Magn Magn Mater
158
53. Burguera EF, Love BJ, Sahul R et al (2008) A physical basis for stability in bimodal
dispersions including micrometer-sized particles and nanoparticles using both linear and non-
linear models to describe yield. J Intel Mat Syst Str 19:1361
335:149
-
1367
54. Wang X, Gordaninejad F (1999) Flow analysis of
eld-controllable, electro-and magneto-
rheological
-
608
55. Resiga DS, V
é
k
á
s L, Susan-Resiga R et al (2007) A rheological model for magneto-
rheological fluids. In: Proceedings of the 3rd German
-
Romanian workshop on
turbomachinery hydrodynamics, Timisoara, May 10
-
12, pp 141
-
148
56. Yamanaka S, Abe H, Naito M et al (2012) Colloidal dispersibility of fatty acid-capped iron
nanoparticles and its effect on static and dynamic magnetorheological response. Colloid Surf
A 415:239
-
246
57. Mrlik M, Sedlacik M, Pavlinek V et al (2013) Magnetorheology of carbonyl iron particles
coated with polypyrrole ribbons: the steady shear study. J Phys Conf Ser 412:012016
58. Sidpara A, Das M, Jain VK (2009) Rheological characterization of magnetorheological
nishing
fl
uids using Herschel-Bulkley model. J Intel Mat Syst Str 10:601
-
1478
59. Gabriel C, Laun HM (2009) Combined slit and plate
fl
uid. Mater Manuf Process 24:1467
-
plate magnetorheometry of a
-
magnetorheological
fl
uid (MRF) and parameterization using the Casson model. Rheol Acta
768
60. Kim IG, Song KH, Park BO et al (2011) Nano-sized Fe soft-magnetic particle and its
magnetorheology. Colloid Polym Sci 289:79
48:755
-
83
61. Farjoud A, Ahmadian M, Mahmoodi N et al (2011) Nonlinear modeling and testing of
magneto-rheological
-
ows. Smart Mater Struct 20:085013
62. Resiga DS (2009) A rheological model for magneto-rheological fluids. J Intel Mat Syst Str
20:1001
-
1010
fl
uids in low shear rate squeezing
fl
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