04095nam 2200901z- 450 991036773930332120231214133254.03-03921-785-2(CKB)4100000010106324(oapen)https://directory.doabooks.org/handle/20.500.12854/60272(EXLCZ)99410000001010632420202102d2019 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierSuperhydrophobic Coatings for Corrosion and TribologyMDPI - Multidisciplinary Digital Publishing Institute20191 electronic resource (166 p.)3-03921-784-4 Superhydrophobic surfaces, with a water contact angle >150°, have attracted both academic and industrial interest due to their wide range of applications, such as water proofing, anti-fogging, antifouling, anti-icing, fluidic drag reduction and anti-corrosion. Currently the majority of superhydrophobic coatings are created using organic chemicals with low surface energy. However, the lack of mechanical strength and heat resistance prevents the use of these coatings in harsh environments. Quality superhydrophobic coatings developed using inorganic materials are therefore highly sought after. Ceramics are of particular interest due to their high mechanical strength, heat and corrosion resistance. Such superhydrophobic coatings have recently been successfully fabricated using a variety of ceramics and different approaches, and have shown the improved wear and tribocorrosion resistance properties. This Special Issue focuses on the recent developments in the fabrication of superhydrophobic coatings and their robustness against corrosion and wear resistance, but the original work on other properties of superhydrophobic coatings are also welcome. In particular, the topics of interest include, but are not limited to: Robust superhydrophobic coatings; Coatings with super-wettability in multifunctional applications; Wetting effects on corrosion and tribology; Hierarchical Coating for wetting and modelling.n/aself-cleaningferrofluid dropsurface topographyoil-water separationwear resistancesuper-hydrophobic coatingparabolic morphologynanocompositeelectrochemical surface engineeringAl2O3-coated particlesdynamic characteristicssuperhydrophobicstabilitysuspensionwater-lubricated bearingchemical stabilitycorrosion protectionlow frictionfriction and wear behaviourlubrication performanceelectrochemical depositioncarbon steelTiO2magnetic fieldsuperhydrophobic surfaceempirical formula of friction coefficientrough morphologyelectroless composite coatingHVOFwater-repellent surfacescorrosion resistancemechanical durabilityaluminum alloyNi–CoWS2thermal spraysurfactantCo–Ni coatingdamped harmonic oscillationanodizationetchingMoS2 particleschemical etchingtruncated cone morphologysuperhydrophobic materialshydrophobicitysuper-hydrophobic surfacemicro-arc oxidationelectrodepositionWang Shuncaiauth1314774Zhao GuochenauthBOOK9910367739303321Superhydrophobic Coatings for Corrosion and Tribology3031951UNINA