P. Raiskinmäki scite author profile

Capillary penetration of a wetting liquid in a microtomographic image of paper board, whose linear dimension was close to the average length of wood fibers, was simulated by the lattice-Boltzmann method. In spite of the size of the system not being large with respect to the size of structural inhomogeneities in the sample, for unidirectional penetration the simulated behavior was described well by that of the Lucas-Washburn equation, while for radial penetration a radial capillary equation described the behavior. In both cases the average penetration depth of the liquid front as a function of time followed a power law over many orders of magnitude. Capillary penetration of small droplets of liquid was also simulated in the same three-dimensional image of paper. In this case the simulation results could be described by a generalized form of the radial-penetration equation.

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Spreading dynamics of three-dimensional droplets by the lattice-Boltzmann method

Raiskinmäki

Koponen

Merikoski

et al. 2000

Computational Materials Science

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Raiskinmäki

Shakib-Manesh

Jäsberg

et al. 2002

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Droplets on inclined rough surfaces

et al. 2007

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The behaviour of liquid droplets on inclined heterogeneous surfaces was simulated by the lattice-Boltzmann method using the Shan-Chen multiphase model. The effect of topography of the surface on the contact angle hysteresis was investigated. It is shown in particular, by using anisotropic rough surfaces, how surface topography and thereby the continuity of the three-phase contact line, affect this hysteresis. Our results clearly indicate that the superhydrophobicity of a surface cannot be judged by the contact angle alone.

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P. Raiskinmäki

Simulation of liquid penetration in paper

Spreading dynamics of three-dimensional droplets by the lattice-Boltzmann method

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Droplets on inclined rough surfaces

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