Minimum energy configurations of ER-fluids

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Minimum energy configurations of ER-fluids. / Lukkarinen, Ari; Kaski, Kimmo.

In: International Journal of Modern Physics B, Vol. 15, No. 6-7, 20.03.2001, p. 904-911.

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@article{1236c7082df74873b282c2f98235ce35,
title = "Minimum energy configurations of ER-fluids",
abstract = "The dynamics of the structure formation of an electrorheological fluid consisting of either one type of particles or with two types of particles is studied numerically. In the latter case half of the suspension particles have dielectric constants greater and the the other half smaller than that of the base fluid. In such a system the potential energy between interacting particles depends also on the type of the particles such that the direction of the force between different types of particles is complementary to the force between identical particles. The simulation model is based on a dipole model by utilizing an Ewald method for taking long range interactions into account. The dipoles are not fixed but they are allowed to adapt to local surroundings.",
author = "Ari Lukkarinen and Kimmo Kaski",
year = "2001",
month = "3",
day = "20",
language = "English",
volume = "15",
pages = "904--911",
journal = "International Journal of Modern Physics B",
issn = "0217-9792",
publisher = "World Scientific Publishing Co.",
number = "6-7",

}

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TY - JOUR

T1 - Minimum energy configurations of ER-fluids

AU - Lukkarinen, Ari

AU - Kaski, Kimmo

PY - 2001/3/20

Y1 - 2001/3/20

N2 - The dynamics of the structure formation of an electrorheological fluid consisting of either one type of particles or with two types of particles is studied numerically. In the latter case half of the suspension particles have dielectric constants greater and the the other half smaller than that of the base fluid. In such a system the potential energy between interacting particles depends also on the type of the particles such that the direction of the force between different types of particles is complementary to the force between identical particles. The simulation model is based on a dipole model by utilizing an Ewald method for taking long range interactions into account. The dipoles are not fixed but they are allowed to adapt to local surroundings.

AB - The dynamics of the structure formation of an electrorheological fluid consisting of either one type of particles or with two types of particles is studied numerically. In the latter case half of the suspension particles have dielectric constants greater and the the other half smaller than that of the base fluid. In such a system the potential energy between interacting particles depends also on the type of the particles such that the direction of the force between different types of particles is complementary to the force between identical particles. The simulation model is based on a dipole model by utilizing an Ewald method for taking long range interactions into account. The dipoles are not fixed but they are allowed to adapt to local surroundings.

UR - http://www.scopus.com/inward/record.url?scp=0035917194&partnerID=8YFLogxK

M3 - Article

VL - 15

SP - 904

EP - 911

JO - International Journal of Modern Physics B

JF - International Journal of Modern Physics B

SN - 0217-9792

IS - 6-7

ER -

ID: 10210307