By K. L. Mittal
This e-book is the second one quantity within the sequence "Contact perspective, Wettability and Adhesion." The most suitable quantity was once released in 2013.
Even a cursory look on the literature express that during fresh years the curiosity in knowing and controlling wetting habit has grown exponentially. presently, there's large examine job in rendering surfaces superhydrophobic, superhydrophilic, superoleophobic, superoleophilic, omniphobic and omniphilic due to their purposes in lots of technologically vital fields. additionally the sturdiness or robustness of fabrics with such large" features is intensely major, in addition to the usage of "green" (biobased) fabrics to procure such surfaces.
This booklet containing 19 articles displays more moderen advancements in sure parts coated in its predecessor quantity in addition to it contains a few subject matters that have been no longer coated ahead of. Concomitantly, this publication presents a medium to maintain abreast of the most recent study task and advancements within the area of touch attitude, wettability and adhesion.
The subject matters mentioned comprise: knowing of wetting hysteresis; fabrication of superhydrophobic fabrics; plasma therapy to accomplish superhydrophilic surfaces; hugely liquid repellent textiles; amendment of paper surfaces to manage liquid wetting and adhesion; Cheerios impression and its keep an eye on; engineering fabrics with superwettability; laser ablation to create micro/nano-patterned surfaces; liquid repellent amorphous carbon nanoparticle networks; mechanical toughness of liquid repellent surfaces; wetting of reliable partitions and spontaneous capillary move; courting among roughness and oleophilicity; superhydrophobic and superoleophobic eco-friendly fabrics; computational research of wetting on hydrophobic surfaces: program to self-cleaning mechanisms; bubble adhesion to superhydrophilic surfaces; floor unfastened strength of superhydrophobic fabrics; and function of floor loose power in pharmaceutical capsule tensile strength.
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Extra resources for Advances in Contact Angle, Wettability and Adhesion, Volume Two
Juncker, Capillary microfluidic systems for bio/chemistry, PhD thesis, University of Neuchatel, Neuchatel, Switzerland (2002). 13. M. Kitron-Belinkov, A. Marmur, T. V. Dadheech, Groovydrops: Effect of groove curvature on spontaneous capillary flow, Langmuir 23, 8406–8410 (2007). 14. Yongkang Chen, L. S. Melvin, S. Rodriguez, D. M. Weislogel, Capillary driven flow in micro scale surface structures, Microelec. Eng. 86, 1317–1320 (2009). 15. M. Zimmerman, H. Schmid, P. Hunziker and E. Delamarche, Capillary pumps for autonomous capillary systems, Lab Chip.
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Connecticut Academy Arts Sciences 2, 382–404 (1873). 44 Advances in Contact Angle, Wettabilty and Adhesion 23. H. Bruus, Theoretical Microfluidics, Oxford University Press,,Oxford, UK (2007). 24. K. Brakke, The Surface Evolver, Expl. Math. 1, 141–165 (1992). 25. B. Steinhaus, A. Q. Shen and R. Sureshkumar, Dynamics of viscoelastic fluid filaments in microfluidic devices, Phys. Fluids, 19, 073103 (2007). 26. J. Eggers, Nonlinear dynamics and breakup of free-surface flows, Rev. Modern Phys. 69, 865–929 (1997).
Advances in Contact Angle, Wettability and Adhesion, Volume Two by K. L. Mittal