2013
DOI: 10.1145/2508363.2508395
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Versatile surface tension and adhesion for SPH fluids

Abstract: Figure 1: A water crown emerges as a result of the impact of a water droplet into a filled container. Our surface tension force allows realistic simulation of such natural phenomena. AbstractRealistic handling of fluid-air and fluid-solid interfaces in SPH is a challenging problem. The main reason is that some important physical phenomena such as surface tension and adhesion emerge as a result of inter-molecular forces in a microscopic scale. This is different from scalar fields such as fluid pressure, which c… Show more

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Cited by 155 publications
(115 citation statements)
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References 41 publications
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“…Our approach shares this issue with PBD, where the time dependency of parameters is not handled as timesteps typically do not significantly vary in a scenario (e.g., [Bender et al 2014b]). One of the first papers that discuss resolution-dependent parameters in SPH is, e.g., [Akinci et al 2013]. However, timestep dependencies are not addressed.…”
Section: Parametermentioning
confidence: 99%
“…Our approach shares this issue with PBD, where the time dependency of parameters is not handled as timesteps typically do not significantly vary in a scenario (e.g., [Bender et al 2014b]). One of the first papers that discuss resolution-dependent parameters in SPH is, e.g., [Akinci et al 2013]. However, timestep dependencies are not addressed.…”
Section: Parametermentioning
confidence: 99%
“…Particle-air interaction with SPH can be effectively modelled by the calculation of the surfacetension and adhesion forces, which removes the necessity of surface tracking and the use of ghost or virtual particles (Akinci et al, 2013b). Another method applies the generation of air particles where air pockets are likely to be formed in the liquid.…”
Section: Interactive Fluidsmentioning
confidence: 99%
“…A method of countering this is through the use of specific surface tension and adhesion forces which do not rely on the introduction of ghost particles (Akinci et al, 2013b). Using SPH to model objects or solids in simulations is also popular, finding use in deformable objects and meshes, and elastic and plastic objects.…”
Section: Viscous Elastic Fluids and Objectsmentioning
confidence: 99%
“…We calculated the percentage of the volume difference at each frame of both spheres: with our method, this reaches a maximum of 3.4% of the sphere volume, while with the method of (Wojtan et al, 2007;Shin et al, 2010) the low sampled sphere dissolves completely before the high sampled sphere halves in size. The adhesion method of (Akinci et al, 2013) is used to ensure the fluid realistically adheres to the sides of the sphere.…”
Section: Sampling Independent Dissolutionmentioning
confidence: 99%
“…The reliance of films and games on realistic fluid simulations has led to the popularity of this research topic, with most work in this field focused on the behaviour of fluid itself, such as spray, waves and bubbles Cleary et al, 2007;Busaryev et al, 2012) or the interaction with solids (Batty et al, 2007;Robinson-Mosher et al, 2008;Schechter and Bridson, 2012;Akinci et al, 2013). Comparatively few researchers have tackled the challenging problem of the chemical reaction between fluid and solids, which, under the right conditions, can lead to solid mixing with the liquid: a phenomenon known as dissolution.…”
Section: Introductionmentioning
confidence: 99%