(appeared between 2011 -2015)
(55) Satoh, A. and Chantrell, R., W.
Application of the Lattice Boltzmann Method to Many Particle
Dispersions,
Journal of Fluid Science and
Technology, 6, pp.114-127, 2011.
(56) Satoh, A. and Aoshima,
M.
3D Monte Carlo Simulations of a Magnetic
Disk-like Particle Dispersion,
Colloid and
Polymer Science, 289, pp. 53-62, 2011.
(57) Satoh,
A.
On the Method of Activating the Brownian
Motion for Application of the Lattice Boltzmann Method to
Magnetic Particle
Dispersions,
Molecular Physics, 110, pp. 1-15,
2012.
(58) Sakuda, Y., Aoshima, M. and Satoh,
A.
Negative Magneto-rheological Effect of a
Dispersion composed of Spindle-like Hematite
Particles,
Molecular Physics, 110, pp.
1429-1435, 2012.
(59) Satoh, A.
Lattice Boltzmann
Simulation of the Two-dimensional Flow of a Magnetic Suspension between
Two Parallel Walls under a Non-uniform
Magnetic Field,
Molecular Physics, 110,
pp.2301-2311, 2012.
(60) Satoh, A.
On the Orientational
Characteristics and Transport Coefficients of an Oblate Spheroidal Hematite
Particle in a Simple Shear
Flow,
Molecular Physics, 110, pp. 2137-2149,
2012.
(61) Aoshima, M., Ozaki, M. and Satoh,
A.
Structural Aanalysis of Self-assembled
Lattice Structures composed of Cubic Hematite
Particles,
Journal of Physical Chemistry
C, 116, pp. 17862-17871, 2012.
(62) Satoh,
A.
On the Viscosity-modifying Method for
Activating the Brownian Motion of Magnetic Particles in
Lattice
Boltzmann Simulations
Journal of Magnetism and Magnetic
Materials, 333, pp. 75-86, 2013.
(63) Satoh,
A.
Influence of the Spin Brownian Motion
on the Negative Magneto-rheological Effect in a Rod-like
Hematite Particle
Suspension
Molecular Physics, Vol.
111, pp. 1042-1052, 2013.
(64) Satoh,
A.
Application of the Brownian Dynamics
Method to a Rod-like Hematite Particle Dispersion,
Molecular Physics, Vol.112, No.7, pp.
1002-1011, 2014.
(65) Satoh, A.
On
Aggregate Structures in a Rod-like Hematite Particle Suspension by Means of
Brownian
Dynamics
Simulations,
Molecular Physics, Vol.
112, No. 16, pp. 2122-2137, 2014.
(66) Satoh, A. and Sakuda,
Y.
Theoretical Analysis on the
Orientational Characteristics and Rheological Properties of
a Rod-like Hematite
Particle Suspension in a Simple Shear
Flow,
Colloids and Surfaces A, Vol. 460,
No. 20, pp. 473-482, 2014.
(67) Satoh, A. and Yokoyama,
H.
On the Behavior of an Oblate
Spheroidal Hematite Particle in a Simple Shear Flow under
a Uniform Magnetic Field Applied
in the Flow Direction,
Colloid and
Polymer Science, Vol.292, PP. 935-944, 2014.
(68) Satoh, A.
Brownian Dynamics Simulations with Spin
Brownian Motion on the Negative Magneto-Rheological
Effect of a Rod-like Hematite
Particle Suspension,
Molecular Physics,
Vol. 113, No. 7, pp. 656-670 , 2015.
(69) Satoh, A.
Application of the hybrid-type method of
Brownian dynamics and lattice Boltzmann to magnetic
particle suspensions, Mechanical Engineering Journal, Vol. 2,
No. 2, pp. 1-12, 2015.
(70) Satoh, A.
Sedimentation behavior of a dispersion
composed of large and small charged colloidal
particles
(for development of a new technology
to improve the visibility of small lakes and
ponds),
Environmental Engineering
Science, Vol. 32, No, 6, pp.528-538, 2015.
(71) Satoh,
A.
Brownian Dynamics Simulation of a
Dispersion Composed of Disk-like Hematite Particles
Regarding Aggregation
Phenomena
Colloid and Surfaces A, Vol.483
, pp. 328-340 , 2015.
(72) Satoh, A.
Brownian Dynamics Simulation of a Dispersion
Composed of Disk-like Hematite Particles
Regarding the Orientational Distribution and the Magneto-Rheological
Properties
Colloid and Surfaces A, Vol.
483, pp. 341-351 ,
2015.
(62) Satoh, A.
Lattice
Boltzmann Simulation of a Two-dimensional Flow of a Magnetic
Suspension between the Two Parallel
Walls under a Non-uniform Magnetic Field,
Transactions of the Japan Society of Mechanical Engineers, Vol.77, No.783,
pp.2058-2068,
2011. (in Japanese)
(63) Sakuda, Y., Aosima, M. and Satoh,
A.
Negative Magneto-Rheological Effect of a
Dispersion composed of Spindle-like Hematite
Particles,
Transactions of the Japan Society
of Mechanical Engineers, Vol.77, No.783,
pp.2069-2076,
2011. (in Japanese)
(64)
Satoh, A.
On the Orientational
Characterisrics and Transport Coefficients of a Oblate Spheroidal Hematite
Particle in a Simple Shear Flow,
Transactions of the Japan Society of
Mechanical Engineers, Vol.77, No.783,
pp.2077-2092,
2011. (in Japanese)
(65)
Satoh, A.
On the Viscosity-Modifying Method
for Activating the Brownian Motion of Magnetic Particles in
Lattice Boltzmann Simulations,
Transactions of the Japan Society of
Mechanical Engineers, Vol.77, No.784,
pp.2401-2413,
2011. (in Japanese)
(66)
Satoh, A. and Aosima, M.
The
Viscosity-Modifying Method for Activating the Brownian Motion of Magnetic
Prticles in Lattice
Boltzmann
Simulations,
Kagaku Kougaku Ronbunshu,
Vol.38, No.1, pp.25-31, 2012. (in Japanese)
(67) Satoh, A.
Analysis of Problems in Application of the
Brownian Dynamics Method to a Rod-like Hematite Particle
Dispersion,
Transactions of the Japan Society of
Mechanical Engineers, Vol.78, No.793, pp.1495-1511,
2012. (in Japanese)
(68) Satoh,
A.
Influence of the Spin Rotational Brownian
Motion on the Negative Magneto-rheological Effect in a
Dispersion composed of Rod-like Hematite
Particles
Transactions of the Japan Society of
Mechanical Engineers, Vol.78, No.786, pp.231-243,
(69) Satoh, A.
Brownian Dynamics
Simulations for Investigating Aggregate Structures in a Suspension composed
of
Rod-like Hematite
Particles
Transactions of the Japan
Society of Mechanical Engineers, Vol. 79, No. 797, pp. 38-52,
2013. (in Japanese)
(70) Sakuda, Y. and Satoh, A.
Influence of External Magnetic Field
Direction on Orientational Distribution and Rheological Properties in a
Dilute Suspension composed of Spindle-like
Hematite Particles
(Analysis with
Consideration of Spin Rotational Brownian
Motion)
Transactions of the Japan Society
of Mechanical Engineers, Vol. 79, No. 798, pp. 164-175, 2013. (in
Japanese)
(71) Tamura, S., Taneko, E. and Satoh,
A.,
Brownian Dynamics Simulations
of a Dispersion composed of Two Kinds of Charged Particles
(For Ddevelopment of a Sophisticated
Technology to Improve the Visibility of Rivers and
Lakes)
Transactions of the Japan Society
of Mechanical Engineers, Vol. 79, No. 799, pp. 368-379, 2013. (in
Japanese)
(72)
Aoshima, M. and Satoh,
A.
On the Magneto-Rheological
Effect of a Suspension composed of Ferromagnetic Rod-like Particles
by Means of Brownian Dynamics
Simulations,
Kagaku Kougaku
Ronbunshu, Vol. 39, No. 4, pp. 272-279, 2013 (in
Japanese).
(73) Satoh, A., and Aoshima,
M.
On the Hybrid-type Simulation Method
of Brownian Dynamics and Lattice Boltzmann for Activating the
Brownian Motion of Magnetic
Particles
Kagaku Kogaku
Ronbunshu, Vol. 9, No. 6, pp. 485-492, 2013 (in
Japanese).
(74) Satoh, A. and Okada,
K.
Two-dimensional Monte Carlo simulations on
transition of aggregate structures of a suspension
composed of cubic hematite particles,
Transactions of the Japan Society of
Mechanical Engineers, Vol. 81, No. 831, pp. 15-00484,
2015. (in
Japanese).
(75) Satoh, A. and Okada, K.
On
the phase change of a suspension composed of ferromagnetic rod-like particles by
means of
Monte Carlo
simulations,
Transactions of the Japan Society
of Mechanical Engineers, Vol. 81, No. 832, pp. 15-00473, 2015.
(in
Japanese).