Biomimetics
-15%
portes grátis
Biomimetics
Bioinspired Hierarchical-Structured Surfaces for Green Science and Technology
Bhushan, Bharat
Springer International Publishing AG
11/2018
977
Dura
Inglês
9783319716756
15 a 20 dias
1670
Descrição não disponível.
Introduction.- Roughness-Induced Superliquiphilic/phobic Surfaces: Lessons from Nature.- Modeling of Contact Angle for a Liquid in Contact with a Rough Surface for Various Wetting Regimes.- Lotus Effect Surfaces in Nature.- Fabrication Techniques used for Superliquiphilic/phobic Structures.- Strategies of Micro-, Nano- and Hierarchically Structured Lotus-like Surfaces.- Fabrication and Characterization of Mechanically Durable Superhydrophobic Surfaces.- Fabrication and Characterization of Micropatterned Structures Inspired by Salvinia Molesta.- Characterization of Rose Petals and Fabrication and Characterization of Superhydrophobic Surfaces with High and Low Adhesion.- Modeling and Strategies of Superoleophobic/philic Surfaces.- Fabrication and Characterization of Superoleophilic/phobic Surfaces.- Shark-Skin Surface for Fluid-Drag Reduction in Turbulent Flow.- Black Skimmer Surfaces for Fluid-Drag Reduction in Turbulent Flow.- Gecko Adhesion.- Structure and Mechanical Properties of Nacre.- Self-Healing Materials.- Outlook.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Biomimetics inspired surfaces;Butterfly wing effect;Characterization of rose petals;Gecko feet;Green science and technology;Hierarchical structures surfaces;Lotus effect;Properties of Nacre and structural coloration;Self-Cleaning;Shark skin effect;Superhydrophobic surfaces;Superoleophobicity self cleaning;Superomniphobic surfaces
Introduction.- Roughness-Induced Superliquiphilic/phobic Surfaces: Lessons from Nature.- Modeling of Contact Angle for a Liquid in Contact with a Rough Surface for Various Wetting Regimes.- Lotus Effect Surfaces in Nature.- Fabrication Techniques used for Superliquiphilic/phobic Structures.- Strategies of Micro-, Nano- and Hierarchically Structured Lotus-like Surfaces.- Fabrication and Characterization of Mechanically Durable Superhydrophobic Surfaces.- Fabrication and Characterization of Micropatterned Structures Inspired by Salvinia Molesta.- Characterization of Rose Petals and Fabrication and Characterization of Superhydrophobic Surfaces with High and Low Adhesion.- Modeling and Strategies of Superoleophobic/philic Surfaces.- Fabrication and Characterization of Superoleophilic/phobic Surfaces.- Shark-Skin Surface for Fluid-Drag Reduction in Turbulent Flow.- Black Skimmer Surfaces for Fluid-Drag Reduction in Turbulent Flow.- Gecko Adhesion.- Structure and Mechanical Properties of Nacre.- Self-Healing Materials.- Outlook.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Biomimetics inspired surfaces;Butterfly wing effect;Characterization of rose petals;Gecko feet;Green science and technology;Hierarchical structures surfaces;Lotus effect;Properties of Nacre and structural coloration;Self-Cleaning;Shark skin effect;Superhydrophobic surfaces;Superoleophobicity self cleaning;Superomniphobic surfaces
