Quasi-2D Monte Carlo simulations of phase transitions and internal aggregate structures in a highly dense suspension composed of magnetic plate-like particles

Satoh, Akira; Sakuda, Yasuhiro

doi:10.1080/00268976.2010.506452

Cited by 23 publications

(9 citation statements)

References 14 publications

(18 reference statements)

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“…In the field of fluid engineering, the main targets for the application of a suspension with magneto-rheological properties has been actuators and dampers, therefore the influence of particle aggregation on the rheological properties of a magnetic suspension has being investigated [2,3]. In the field of colloid interface science, high-density recording materials [4,5] and optical units [6][7][8][9][10] are the main applications, therefore our research group has been investigating the self-organization of magnetic particles [11], the control of particle orientation on material surfaces [12] and phase change phenomena [13].…”

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confidence: 99%

On the orientational characteristics and transport coefficients of an oblate spheroidal hematite particle in a simple shear flow

Satoh

2012

Molecular Physics

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We have developed the basic equation of the orientational distribution function of oblate spheroidal hematite particles with rotational Brownian motion in a simple shear flow under an applied magnetic field. An oblate spheroidal hematite particle has an important characteristic in that it is magnetized in a direction normal to the particle axis. Since a dilute dispersion is addressed in the present study, we have taken into account only the friction force (torque) whilst neglecting the hydrodynamic interactions among the particles. This basic equation has been solved numerically in order that we may investigate the dependence of the orientational distribution on the magnetic field strength, shear rate and rotational Brownian motion and the relationship between the orientational distribution and the transport coefficients such as viscosity and diffusion coefficient. We found that if the effect of the magnetic field is more dominant, the particle inclines in such a way that the oblate surface aligns in the magnetic field direction. If the Peclet number increases and the effect of the shear flow becomes more dominant, the particle inclines such that the oblate surface tilts in the shear flow direction. The viscosity due to the magnetic torque is shown to increase as the magnetic field increases, since the magnetic torque due to the applied magnetic field becomes the more dominant effect. Moreover, the viscosity increase is shown to be more significant for a larger aspect ratio or for a more oblate hematite particle. We have applied the analysis to the problem of particle sedimentation under gravity in the presence of a magnetic field applied in the sedimentation direction. The particles are found to sediment with the oblate surface aligning more significantly in the sedimentation direction as the applied magnetic field strength increases.

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Section: Introductionmentioning

confidence: 99%

On the orientational characteristics and transport coefficients of an oblate spheroidal hematite particle in a simple shear flow

Satoh

2012

Molecular Physics

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“…Nowadays, the development of the synthesis technology enables one to generate magnetic particles with various shapes such as rod-like, disk-like and cubic-like particles [2][3][4][5][6][7][8][9][10][11][12]. In addition to the application of particle suspensions to magneto-rheological fluids, possible applications are high-density recording materials [13,14], optical units [15][16][17][18][19], and surface modifying technology [20].…”

Section: Introductionmentioning

confidence: 99%

Brownian dynamics simulation of a dispersion composed of disk-like hematite particles regarding aggregation phenomena

Satoh

2015

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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“…Magnetic suspensions of these particles may be expected to be developed as a functional fluid that exhibits functional characteristics in a certain situation. Representative possible applications are high-density recording materials [12,13], optical units [14][15][16][17][18], actuators and dampers [19] and surface modifiers [20].…”

Section: Introductionmentioning

confidence: 99%

On aggregate structures in a rod-like haematite particle suspension by means of Brownian dynamics simulations

Satoh

2014

Molecular Physics

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We have investigated aggregation phenomena in a suspension composed of rod-like haematite particles by means of Brownian dynamics simulations. The magnetic moment of the haematite particles lies normal to the particle axis direction and therefore the present Brownian dynamics method takes into account the spin rotational Brownian motion about the particle axis. We have investigated the influence of the magnetic particle-field and particle-particle interactions, the shear rate and the volumetric fraction of particles on the particle aggregation phenomena. Snapshots of aggregate structures are used for a qualitative discussion and the cluster size distribution, radial distribution function and the orientational correlation functions of the direction of particle axis and magnetic moment are the focus for a quantitative discussion. The significant formation of raft-like clusters is found to occur at a magnetic particle-particle interaction strength much larger than that required for a magnetic spherical particle suspension. This is because the rotational Brownian motion has a significant influence on the formation of clusters in a suspension of rod-like particles with a large aspect ratio. An applied magnetic field enhances the formation of raft-like clusters. A shear flow does not have a significant influence on the internal structure of the clusters, but influences the cluster size distribution of the raft-like clusters.

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Quasi-2D Monte Carlo simulations of phase transitions and internal aggregate structures in a highly dense suspension composed of magnetic plate-like particles

Cited by 23 publications

References 14 publications

On the orientational characteristics and transport coefficients of an oblate spheroidal hematite particle in a simple shear flow

On the orientational characteristics and transport coefficients of an oblate spheroidal hematite particle in a simple shear flow

Brownian dynamics simulation of a dispersion composed of disk-like hematite particles regarding aggregation phenomena

On aggregate structures in a rod-like haematite particle suspension by means of Brownian dynamics simulations

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