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Triple line wetting ridge

More complete analyses have been effected [6,23], but we shall present here a simple scaling procedure in order to isolate the essential nature of the wetting ridge. Consider a zone of typical linear dimension to in the vicinity of the triple line, which corresponds to the solid disturbed by the capillary force 7 sin 0. Within this region, a stress of order of... [Pg.290]

Consider the work, Ei, effected when the vertical component of liquid surface tension, 7 sin 0, lifts the local solid to a height h—that of the wetting ridge. This work, per unit length of triple line, is simply hy sin 0. Using Eq. (5), we obtain ... [Pg.293]

It has been shown that the kinetics of the spreading of a liquid on a rubber is largely dependent on viscoelastic dissipation in the wetting ridge of the substrate near the triple line. This behavior may, in practice, be slightly altered by moderate swelling that modifies the solid/liquid interactions for long contact times. [Pg.303]

In the case where the material used to make the capillary tube is a soft rubber, Eq. (46) does not apply any more, due to the viscoelastic braking induced by the displacement of the wetting ridge. The viscoelastic braking force, / per unit of length of the triple line depends on the flow speed U according to ... [Pg.311]

Figure 1.13. Formation of a wetting ridge at the triple line (a) by a mechanism similar to grain-boundary grooving (b). Figure 1.13. Formation of a wetting ridge at the triple line (a) by a mechanism similar to grain-boundary grooving (b).
Saiz et al. (1998) considered that in the case of a triple line, the L/V surface can play the role of a grain boundary and the wetting ridge can move either by bulk or surface (or interface) diffusion of solid atoms (Figure 2.14). They treated the case of surface diffusion with n = 4, taking into account the difference of diffusivities at the S/V surfaces and S/L interfaces. In their experiments with Cu and Ni droplets on AI2O3 surfaces (see Section 1.2.4), Saiz et al. maintained the... [Pg.71]

Figure 2.14. Wetting ridge at the triple line formed during spreading according to (Saiz et al. 1998). Figure 2.14. Wetting ridge at the triple line formed during spreading according to (Saiz et al. 1998).
Shanahan MER, Carre A (1995) Viscoelastic dissipation in wetting and adhesion phenomena. Langmuir 11 1396 Shanahan MER, de Gennes PG (1986) The ridge produced by a liquid near the triple line solid/liquid/ fluid. Compt Rend Acad Sci Paris 302 517 Shanahan MER, Cazeneuve C, Carre A, Schultz J (1982) Wetting criteria in 3-phase solid/liquid/liquid systems. J Chim Phys 79 241... [Pg.91]

See other pages where Triple line wetting ridge is mentioned: [Pg.289]    [Pg.290]    [Pg.292]    [Pg.293]    [Pg.293]    [Pg.301]    [Pg.304]    [Pg.71]    [Pg.73]    [Pg.101]    [Pg.102]   
See also in sourсe #XX -- [ Pg.20 , Pg.71 ]



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