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1.
Research on Progress of the Materials Similar to Super-hydrophobic Surface Preparation
仿生超疏水表面的制备技术及其进展
2.
Microstructure of Superhydrophobic Surfaces from Natural to Artificial
从自然到仿生的超疏水表面的微观结构
3.
Simple Fabrication of Biomimetic Superhydrophobic Lead Dodecanethiolate Surface with Rice-like Hierarchical Micro/Nanostructure
具有米状纳微阶层结构的仿生超疏水十二硫醇铅表面的简单制备(英文)
4.
Studies on Fabrication of Superhydrophobic Surfaces on Alloy Substrates and the Wettability of the Surfaces;
合金基体上超疏水表面的制备及疏水性的研究
5.
Super-hydrophobic surface:From preparation methods to functional application
超疏水表面:从制备方法到功能应用
6.
Microbially Influenced Corrosion Resistance Improvement of Superhydrophobic Surface on Aluminum Surfaces
超疏水表面改善金属铝的抗海洋微生物腐蚀性能
7.
Influence of Surface Roughness on Superhydrophobicity of Silicone Rubber Surface
表面粗糙度对硅橡胶材料表面超疏水性的影响
8.
The Fabrication of Superhydrophobic、Superhydrophilic and pH Responsive Surfaces Based on Electrodeposited Surface;
基于电沉积表面的超疏水、超亲水以及pH响应表面的制备
9.
Investigations on the Fabrication of Super-Hydrophobic Surface on Aluminum Micro-Tubes and Water Flow Characteristics in the Tubes;
微铝管超疏水表面制备及水流动特性的研究
10.
Study on the Wetting Behavior of the Superhydrophobic Surface with Micro-and Nano-Structures;
具有微纳米结构超疏水表面润湿性能研究
11.
Fabrication and Study of Super-hydrophobic Surface and Its Blood Compatibility;
超疏水性表面的制备及血液相容性研究
12.
The Study of the Super-hydrophobic Surface and Slip Flow in Microchannel;
超疏水表面及其微通道滑移流动的研究
13.
Mechanism Study about the Wettability and Flow Drag Reduction on Superhydrophobic Surface
超疏水表面润湿性与流动减阻机理研究
14.
Characteristics and methods of super-hydrophobic surface anticoagulation property study
国内外超疏水表面抗凝血性能研究的方法特征
15.
Research Progress of Super-hydrophobic Surfaces via Electrospinning
静电纺制备超疏水表面纤维膜的研究进展
16.
Fabrication of LDPE Superhydrophobic Surface by Stretching Controlled Micromolding
拉伸微模塑制备低密度聚乙烯超疏水表面
17.
Liquid Slip over Super-Hydrophobic Surface and Its Application in Drag Reduction
超疏水性表面上的流体滑移及其减阻应用(英文)
18.
The Basic Research of Bionic Artificial Valve Based on the Super-hydrophobility and Rheology Reduction Theories
基于超疏水和流变减阻理论的仿生心脏瓣膜的基础研究