Titlebook: Biomimetics; Bioinspired Hierarch Bharat Bhushan Book 2018Latest edition Springer Nature Switzerland AG 2018 Biomimetics inspired surfaces.

adduction

Characterization of Rose Petals and Fabrication and Characterization of Superhydrophobic Surfaces w droplet can easily roll off the surface of a lotus leaf, it stays pinned to the surface. The different behavior of wetting between the lotus leaf and the rose petal can be explained by different designs in the surface hierarchical micro—and nanostructure. The rose petal’s microstructure, and possib

助記

Strategies for Superliquiphobic/Philic Surfaces,ns and can reduce fluid drag (Bhushan .). As a model surface in living nature for a liquid repellent surface in air, the upper side of the lotus leaf surface repels water (superhydrophobic) and is useful for self-cleaning and low adhesion applications (Barthlott and Neinhuis .; Bhushan and Jung .).

albuminuria

絕緣

POWER

Skimmer Bird Beak (,) Surface for Fluid Drag Reduction in Turbulent Flow,ternal and external fluid flow applications. The skin of fast-swimming sharks is a design inspiration for low-drag surfaces (Bhushan .; Dean and Bhushan .; Bixler and Bhushan ., .). Sharks are able to move quickly through turbulent water flow due to the surface features on their scales. These scales

有限

Rice Leaf and Butterfly Wing Effect, nature due to their low drag and antifouling properties, with commonly studied examples including shark skin and lotus leaves. Inspired by shark skin and lotus leaves, Bixler and Bhushan (.) found that rice leaves and butterfly wings combine the shark skin and lotus effects. Sinusoidal grooves in r

Ruptured-Disk

Bio- and Inorganic Fouling,organic fouling. Biofouling is the accumulation of unwanted biological matter on surfaces, with biofilms created by microorganisms, and macroscale biofouling (simply called macrofouling) created by macroorganisms.

visceral-fat

Bioinspired Strategies for Water Collection and Water Purification,r infrastructure, water scarcity affects more than 40% of the global population and is projected to rise. It is estimated that more than 800 million people do not have access to clean water and over 1.7 billion people are currently living in river basins where water use exceeds recharge.

Injunction

Retrieval