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W3092016024 abstract "This study uses an efficient, continuum-level modeling method to investigate the spreading and retraction dynamics of viscous droplets impact on flat solid surfaces. The main advantage of this method is that it employs the notion of disjoining pressure to avoid the specification of contact angle boundary in traditional modeling methods. Thus, the dynamic contact angle and contact line motion are derived more physically as a result of the combined action of capillary and disjoining pressure. Based on this modeling method, we systematically analyze the influence of droplet viscosity, impact velocity and material wettability on the dynamic characteristics of droplets. Multiple general correlations are developed to predict the spreading factor β during the kinematic phase, the maximum spreading factor βmax, the minimum film thickness hc,min and the retraction rate ε˙, which are all in good agreement with previous theoretical models. In addition, this paper also discusses the applicability and limitations of these models. Finally, we have successfully proved that this modeling method can be reliably applied to the investigations of both droplet spreading and retraction process." @default.
W3092016024 created "2020-10-15" @default.
W3092016024 creator A5067759783 @default.
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W3092016024 date "2021-01-01" @default.
W3092016024 modified "2023-10-10" @default.
W3092016024 title "Numerical investigations of the spreading and retraction dynamics of viscous droplets impact on solid surfaces" @default.
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W3092016024 doi "https://doi.org/10.1016/j.colsurfa.2020.125649" @default.
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