The dependence of contact angle value from surface features on the interphase boundaries (EN) / Зависимость величины краевого угла смачивания от поверхностных характеристик на границах раздела фаз (RU)

V. K. Verkholomov

Abstract: As a result of computational studies, a unique correspondence between the value of θ0 and the adhesion force of the solid body σA was established. The transition from the classical Young equation to the equation Young-Verkholomov (from the free surface energy of the solid body σSV to σA) allows us to predict the development of new solid smooth coatings with θ0 ≥ 130-1350.

// Science and World. 2017. № 12, V. 1, p. 15-17
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Physical features of new equation (Young-Verkholomov equation) of contact angle of wetting (EN) / Физические особенности нового уравнения (уравнения Юнга-Верхоломова) краевого угла смачивания (RU)

V. K. Verkholomov

Abstract: The isolated system solid / liquid / steam should be considered as a kind of a mechanical system based on the interaction of the forces acting in the system. Within this concept and with the involvement of molecular-kinetic theory the author considered force characteristics at the interface when wetting low-energy smooth solid surfaces. It is shown that the magnitude of the adhesion forces occurring upon wetting between particles (molecules) of liquid placed on a three-phase contact line, and particles on the surface of the solid depends on the surface energy characteristics of a solid body and a liquid. The resulting new equation (Young-Verkholomov equation) of the equilibrium contact angle is

Cosθ0 = (σA - σLS) / σLV,

where σA - the adhesive force at the interface solid/vapor;

σLS, σLV - surface tension of liquid at the interface liquid / solid phase, and liquid / vapor respectively.

// Materials of the XII international research and practice conference "Science, Technology and Higher Education". December 21-22, 2016. Westwood, Canada. P. 97-110.
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