科技报告详细信息
Elucidating the mysteries of wetting.
Webb, Edmund Blackburn, III ; Bourdon, Christopher Jay ; Grillet, Anne Mary ; Sackinger, Philip A. ; Grest, Gary Stephen ; Emerson, John Allen ; Ash, Benjamin Jesse ; Heine, David R. ; Brooks, Carlton, F. ; Gorby, Allen D.
Sandia National Laboratories
关键词: Fluid Mechanics Wetting.;    Wetting.;    Electrostatics;    Ellipsometry;    Computerized Simulation;   
DOI  :  10.2172/875609
RP-ID  :  SAND2005-6734
RP-ID  :  AC04-94AL85000
RP-ID  :  875609
美国|英语
来源: UNT Digital Library
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【 摘 要 】

Nearly every manufacturing and many technologies central to Sandia's business involve physical processes controlled by interfacial wetting. Interfacial forces, e.g. conjoining/disjoining pressure, electrostatics, and capillary condensation, are ubiquitous and can surpass and even dominate bulk inertial or viscous effects on a continuum level. Moreover, the statics and dynamics of three-phase contact lines exhibit a wide range of complex behavior, such as contact angle hysteresis due to surface roughness, surface reaction, or compositional heterogeneities. These thermodynamically and kinetically driven interactions are essential to the development of new materials and processes. A detailed understanding was developed for the factors controlling wettability in multicomponent systems from computational modeling tools, and experimental diagnostics for systems, and processes dominated by interfacial effects. Wettability probed by dynamic advancing and receding contact angle measurements, ellipsometry, and direct determination of the capillary and disjoining forces. Molecular scale experiments determined the relationships between the fundamental interactions between molecular species and with the substrate. Atomistic simulations studied the equilibrium concentration profiles near the solid and vapor interfaces and tested the basic assumptions used in the continuum approaches. These simulations provide guidance in developing constitutive equations, which more accurately take into account the effects of surface induced phase separation and concentration gradients near the three-phase contact line. The development of these accurate models for dynamic multicomponent wetting allows improvement in science based engineering of manufacturing processes previously developed through costly trial and error by varying material formulation and geometry modification.

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