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W4320716965 abstract "Contact angle is an essential physical quantity that characterizes the wettability of a substrate. Although it is widely used in the studies of surface wetting, capillary phenomena, and moving contact lines, the contact angle measurements in simulations and experiments are still complicated and time-consuming. In this paper, we present an efficient scheme for the measurement of contact angle on curved wetting surfaces in lattice Boltzmann simulations. The measuring results are in excellent agreement with the theoretical predictions without considering the gravity effect. A series of simulations with various drop sizes and surface curvatures confirm that the present scheme is grid-independent. Then, the scheme is verified in gravitational environments by simulating the deformations of sessile and pendent droplets on the curved wetting surface. The numerical results are highly consistent with experimental observations and support the theoretical analysis that the microscopic contact angle is independent of gravity. Furthermore, the method utilizes only the microscopic geometry of the contact angle and does not depend on the droplet profile; therefore, it can be applied to nonaxisymmetric shapes or moving contact lines. The scheme is applied to capture the dynamic contact angle hysteresis on homogeneous or chemically heterogeneous curved surfaces. Importantly, the accurate contact angle measurement enables the dynamic mechanical analysis of moving contact lines. The present measurement is simple and efficient and can be extended to implementations in various multiphase lattice Boltzmann models." @default.
W4320716965 created "2023-02-15" @default.
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W4320716965 date "2023-02-14" @default.
W4320716965 modified "2023-10-15" @default.
W4320716965 title "Contact Angle Measurement on Curved Wetting Surfaces in Multiphase Lattice Boltzmann Method" @default.
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W4320716965 doi "https://doi.org/10.1021/acs.langmuir.2c02763" @default.
W4320716965 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36787627" @default.
W4320716965 hasPublicationYear "2023" @default.
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