说明:双击或选中下面任意单词,将显示该词的音标、读音、翻译等;选中中文或多个词,将显示翻译。
您的位置:首页 -> 句库 -> 仿生功能表面
1.
Research on Nanoimprint and Fabrication of MEMS Bionic Functional Surfaces;
纳米压印及MEMS仿生功能表面制备的研究
2.
The Applied Basic Research on Functionalization and Biomimetic Mineralization of Enamel Surface;
牙釉质表面的功能化及其仿生矿化的应用基础研究
3.
Coupling Bionic Research on the Adhesion and Resistance Reduction of the Earthworm Surface
蚯蚓体表减粘降阻功能耦合仿生研究
4.
Biomimetic synthesis and characterization of functional calcium carbonate materials
功能性碳酸钙材料的仿生合成及表征
5.
Analysis of Drag Reduction on Revolution Bodies with Bionic Non-smooth Surface;
仿生非光滑表面旋成体减阻性能分析
6.
General speaking, the main research contents in this field include: bionic city, bionic function, bionic structure, bionic form and so on.
它的主要研究内容包括:城市仿生,功能仿生,结构仿生,形式仿生等方面。
7.
Surface Modification of Poly(D,L-lactide) Via Bioactive Surfactant and Functional Microsphere;
生物功能表面活性剂和生物功能微球改性聚乳酸表面的研究
8.
Research for Wettability of Cu-Zn Alloy and Stainless Steel Bionic Coupling Surface;
铜—锌合金及不锈钢仿生耦合表面润湿性能研究
9.
Friction Wear Research of Cast Iron Processed to Bionic Non-smooth Surface by Laser;
仿生非光滑表面铸铁材料摩擦磨损性能的研究
10.
Study of Drag Reduction Capability of the Dimple Bionic Non-smooth Surface;
凹坑形仿生非光滑表面的减阻性能研究
11.
Study on Adhesion Property of Moulds with Biomimetic Coupling Non-smooth Surface
仿生非光滑耦合模具表面粘附性能研究
12.
Bionic Investigation on Anti-fatigue Capability to Grid Surface Morphology of Automobile Gears
汽车齿轮网格形表面形态仿生抗疲劳性能研究
13.
Simulation and Test Ultra-precision Diamond Machining of Microstructure
微结构功能表面的金刚石超精密加工仿真与试验
14.
Evaluate Target of Non-smoothness of Living Creatures and Functional Experiment on Plant Surfaces;
典型生物表面非光滑形态评价指标及植物表面功能性实验
15.
The production line is provided with the function of continuous reverting for rod surface and fast cooling.
生产线具有铜杆表面连续还原、速冷却功能。
16.
Preparation of Biomorphic Porous Carbon and Functionalized Modification of Its Cell Wall
生物遗态多孔炭制备及其孔表面功能化修饰
17.
Training Simulation for Full-Function Inertial Navigation Base on Virtual Instruments
基于虚拟仪表的全功能惯导训练仿真
18.
The content of the alkali treatment is the main factor that affects the ability of biomimetic minerialization on pure titanium surfaces.
碱液处理的浓度是影响纯钛表面仿生矿化能力的主要因素。