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A comparison of field-dependent rheological properties between spherical and plate-like carbonyl iron particles-based magneto-rheological fluids

Shilan, S. T. and Mazlan, S. A. and Ido, Y. and Hajalilou, A. and Jeyadevan, B. and Choi, S. B. and Yunus, N. A. (2016) A comparison of field-dependent rheological properties between spherical and plate-like carbonyl iron particles-based magneto-rheological fluids. Smart Materials and Structures, 25 (9). ISSN 0964-1726

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Abstract

This work proposes different sizes of the plate-like particles from conventional spherical carbonyl iron (CI) particles by adjusting milling time in the ball mill process. The ball mill process to make the plate-like particles is called a solid-state powder processing technique which involves repeated welding, fracturing and re-welding of powder particles in a high-energy ball mill. The effect of ball milling process on the magnetic behavior of CI particles is firstly investigated by vibrating sample magnetometer. It is found form this investigation that the plate-like particles have higher saturation magnetization (about 8%) than that of the spherical particles. Subsequently, for the investigation on the sedimentation behavior the cylindrical measurement technique is used. It is observed from this measurement that the plate-like particles show slower sedimentation rate compared to the spherical particles indicating higher stability of the MR fluid. The field-dependent rheological properties of MR fluids based on the plate-like particles are then investigated with respect to the milling time which is directly connected to the size of the plate-like particles. In addition, the field-dependent rheological properties such as the yield stress are evaluated and compared between the plate-like particles based MR fluids and the spherical particles based MR fluid. It is found that the yield shear stress of the plate-like particles based MR fluid is increased up to 270% compared to the spherical particles based MR fluid.

Item Type:Article
Uncontrolled Keywords:Ball milling, Haptic interfaces, Iron, Magnetic properties, Magnetorheological fluids, Mechanical alloying, Milling (machining), Rheology, Saturation magnetization, Shear stress, Spheres, Welding, Yield stress, Carbonyl iron particles, High energy ball mill, Magneto-rheological fluid, Measurement techniques, Milling time, Powder processing techniques, Rheological property, Vibrating sample magnetometer, Ball mills
Subjects:Q Science > QA Mathematics
Divisions:Malaysia-Japan International Institute of Technology
ID Code:71573
Deposited By: Widya Wahid
Deposited On:16 Nov 2017 08:38
Last Modified:16 Nov 2017 08:38

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