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http://dx.doi.org/10.1016/j.jiec.2018.08.005

Tribological and rheological tests of core-shell typed carbonyl iron/polystyrene particle-based magnetorheological fluid  

Zhang, Peng (Nanjing Research Institute for Agricultural Mechanization Ministry of Agriculture)
Dong, Yu Zhen (Department of Polymer Science and Engineering, Inha University)
Choi, Hyoung Jin (Department of Polymer Science and Engineering, Inha University)
Lee, Chul-Hee (Department of Mechanical Engineering, Inha University)
Publication Information
Journal of Industrial and Engineering Chemistry / v.68, no., 2018 , pp. 342-349 More about this Journal
Abstract
Polystyrene (PS) was coated on carbonyl iron (CI) particles via dispersion polymerization to produce core-shell structured CI/PS particles and adopted as magnetorheological (MR) material. Two MR fluids were prepared by dispersing CI/PS and CI particles in silicone oil. Their MR and tribological properties were investigated using a rheometer and a reciprocating friction and wear tester, respectively. Experimental data showed that tribological properties of MR fluid based on CI/PS particles are significantly enhanced compared to those of CI based MR fluid. Sedimentation problem of CI/PS MR fluid was also expected to be improved due to relatively lower density of CI/PS particles.
Keywords
Magnetorheological; Carbonyl iron; Polystyrene; Friction; Tribology;
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1 J. Seok, S.O. Lee, K.I. Jang, B.K. Min, S.J. Lee, Tribol. Trans. 52 (2009) 460.   DOI
2 Y. Tong, X. Dong, M. Qi, Smart Mater. Struct. 26 (2017) 025023.   DOI
3 P.L. Wong, W.A. Bullough, C. Feng, S. Lingard, Wear 247 (2001) 33.   DOI
4 Z.D. Hu, H. Yan, H.Z. Qiu, P. Zhang, Q. Liu, Wear 278-279 (2012) 48.   DOI
5 J.W. Seok, S.O. Lee, K.I. Jang, B.K. Min, S.J. Lee, Tribol. Trans. 52 (2009) 460.   DOI
6 A.J. Bombard, M. Knobel, M.R. Alcantara, I. Joekes, J. Intell. Mater. Syst. Struct.13 (2002) 471.   DOI
7 A.B. Shorey, S.D. Jacobs, W.I. Kordonski, R.F. Gans, Appl. Opt. 40 (2001) 20.   DOI
8 S.W. Ko, J.Y. Lim, B.J. Park, M.S. Yang, H.J. Choi, J. Appl. Phys. 105 (2009) 07E703.   DOI
9 P. Zhang, K.H. Lee, C.H. Lee, Chin. J. Mech. Eng. 29 (2016) 84.   DOI
10 P. Zhang, K.H. Lee, C.H. Lee, Trans. Nonferrous Met. Soc. 24 (2014) 171.   DOI
11 K. Hayashi, W. Sakamoto, T. Yogo, Colloid Polym. Sci. 291 (2013) 2837.   DOI
12 B.J. Park, F.F. Fang, K. Zhang, H.J. Choi, Korean J. Chem. Eng. 27 (2010) 716.   DOI
13 V.Y. Dolmatov, J. Superhard Mater. 32 (2010) 14.   DOI
14 N.F. Dmitrichenko, R.G. Mnatsakanov, O.A. Mikosyanchik, A.I. Kushch, J. Frict. Wear 30 (2009) 399.   DOI
15 X. Quan, W. Chuah, Y. Seo, H.J. Choi, IEEE Trans. Magn. 50 (2014) 2500904.
16 I.B. Jang, H.B. Kim, J.Y. Lee, J.L. You, H.J. Choi, M.S. Jhon, J. Appl. Phys. 97 (2005) 10Q912.   DOI
17 J.H. Kim, F.F. Fang, H.J. Choi, Y. Seo, Mater. Lett. 62 (2008) 2897.   DOI
18 P. Yang, M. Yu, H. Luo, J. Fu, H. Qu, Y. Xie, Appl. Surf. Sci. 416 (2017) 772.   DOI
19 O. Volkova, G. Bossis, M. Guyot, V. Bashtovoi, A. Reks, J. Rheol. 44 (2000) 91.   DOI
20 W.J. Han, S.H. Piao, H.J. Choi, Y.S. Seo, Colloids Surf. A 524 (2017) 79.   DOI
21 J.M. Ginder, L.C. Davis, L.D. Elie, Int. J. Mod. Phys. B 10 (1996) 3293.   DOI
22 W.L. Song, Q.C. Cai, S.B. Choi, C.H. Lee, Civil Eng. Build. Mater. 1 (2011) 17.
23 J.D. Carlson, Magnetorheological Fluid Actuators, Adaptronics and Smart Structures, Springer-Verlag, Berlin, 1999 p. 180.
24 J.S. An, W.J. Han, H.J. Choi, Colloid Surf. A 535 (2017) 16.   DOI
25 M.R. Jolly, J.W. Bender, J.D. Carlson, J. Intell. Mater. Syst. Struct. 10 (1999) 5.   DOI
26 D. Vagberg, B.P. Tighe, Soft Matter 13 (2017) 7207.   DOI
27 S.K. Mangal, V. Sharma, J. Braz. Soc. Mech. Sci. Eng. 39 (2017) 4191.   DOI
28 B.K. Kumbhar, S.R. Patil, S.M. Sawant, Eng. Sci. Technol. 18 (2015) 432.
29 P.P. Phule, Smart Mater. Bull. 2001 (2001) 7.
30 A.G. Olabi, A. Grunwald, Mater. Des. 28 (2007) 2658.   DOI
31 M. Sedlacik, R. Moucka, Z. Kozakova, N.E. Kazantseva, V. Pavlinek, I. Kuritka, O. Kaman, P. Peer, J. Magn. Magn. Mater. 326 (2013) 7.   DOI
32 W.L. Song, S.B. Choi, D.W. Lee, C.H. Lee, Sci. China Technol. Sci. 55 (2012) 56.   DOI
33 V.R. Iyengar, A.A. Alexandridis, S.C. Tung, D.S. Rule, Tribol. Trans. 47 (2004) 23.   DOI
34 M.A. Bramantya, T. Sawada, J. Magn. Magn. Mater. 323 (2011) 1330.   DOI
35 J. Rodriguez-Lopez, L. Elvira Segura, J. Magn. Magn. Mater. 324 (2012) 222.   DOI
36 M. Sedlacik, V. Pavlinek, RSC Adv. 4 (2014) 58377.   DOI
37 P. Zhang, K.H. Lee, C.H. Lee, J. Magn. Magn. Mater. 421 (2017) 13.   DOI
38 P. Zhang, K.H. Lee, C.H. Lee, J. Tribol. 140 (2017) 022201.
39 Z. Hu, H. Yan, J. Yang, X. Wang, R. Yu, Arab. J. Sci. Eng. 39 (2014) 7355.   DOI
40 A.J.F. Bombard, F.R. Goncalves, K. Shahrivar, A.L. Ortiz, J. de Vicente, Tribol. Int. 81 (2015) 309.   DOI
41 W.L. Song, C.H. Lee, S.B. Choi, Trans. Nonferrous Met. Soc. China 23 (2013) 400.   DOI