实验结果表明此仿生表面具有良好的物理和化学稳定性;
The experimental result showed that the bio-mimic surface has good stability.
并根据“荷叶自洁效应”的仿生学原理,利用超微粉在涂层表面构造粗糙结构,提高其疏水性。
According to the theory of bionics and powders was used to build a coarse structure onto the surface of the coating, and the hydrophobicity was highly improved.
将乳酸脱氢酶(L DH)成功地固定在纳米金胶-半胱胺修饰的金电极表面构建一种新型的纳米仿生功能界面。
LDH was successfully immobilized on Au colloid associated with a cysteamine monolayer on a gold electrode surface to construct a nanometer-sized bionic function interface.
仿生涂层设计是表面涂层设计中的一种新方法。
The bionic design is a new method for the design of surface coatings.
利用试验优化技术设计试验方案,采用激光图形雕刻加工的手段实现齿轮表面仿生非光滑形态,研究非光滑与光滑两种形态齿轮的耐磨损性能。
Using optimum design for experiment scheme, laser graphic texturing was adopted to form bionic non-smooth microstructure on the gear surface to study anti-wear capability of the gears.
进一步进行了以自组装方法在钛表面镀磷酸盐的研究,探讨了在变动的有机模板调制下无机材料的仿生合成机理。
The biomimetic mechanism of inorganic materials is discussed under mediation of variable organic templates and coating of phosphates on titanium surface by self assembling method was studied.
利用3因素5水平的二次旋转设计,对排列在旋成体后部的仿生凹坑表面参数进行优化。
A quadratic rotatable design with 3 factors and 5 levels for each factor was used to optimize the parameters of the dimpled surfaces.
触滑觉组合传感器采用PVDF作为敏感材料,柔顺的传感器表面和小巧的尺寸使之能完全应用于仿生假手的手指上。
The tactile sensor applying PVDF as a sensitive material, has a complaisance surface and a minimal size, very suitable for the bionic hand.
激光雕刻仿生非光滑表面耐磨性提高的原因是:晶粒超细化,硬度提高,桩钉效应和仿生效应。
The reason for abrasive wear resistance enhancement of bionics smooth surface made by Laser Carving Technology is grain super-refining strengthening, hardening, effect of dowel pin and bionics.
结果与结论:在表面生物活性改性的方法中,主要有等离子体喷涂法、微弧氧化法、溶胶-凝胶法及生物仿生法等。
RESULTS AND CONCLUSION:The surface modification methods include plasma spraying, micro-arc oxidation, sol-gel and biomimetic methods.
仿生非光滑结构为提高材料表面的抗黏附性能开辟了一条新途径。
The bionic nonsmooth structure opens up a new potential to improve the antiadhesion of the material surface.
表面层的仿生设计可分为表面色彩设计、表面图案设计、表面材料设计与表面结构设计。
The bionic design of surface layer can be classified as surface colour design, surface pattern design, surface material design and surface structure design.
仿生非光滑表面减粘降阻研究的关键技术是非光滑单元体材料(合金白口铸铁)与钢的连接。
Joining of alloy white cast iron, as an unsmoothed surface material, and steel is one of the key techniques in study of the reduction of soil adhesion and resistance of bionic unsmoothed surfaces.
本文针对假肢等人-机仿生系统肌电控制装置的特点,研制了一种小型表面EMG测试与分析系统。
To meet the requirement of developing myoelectric controller for a man-machine systems, a surface electromyography (EMG) detection and analysis system is discussed in this paper.
植入仿生脊髓之后,表面的小电极将附着在血管壁上,开始从运动皮质记录电信号。
Once the bionic spine is implanted, the tiny electrodes on its exterior will stick to the walls of a vein and start recording electrical signals from the motor cortex.
结论:预处理后可在纯钛表面形成多孔网状结构的氧化膜,经仿生液处理后在氧化膜表面沉积了羟基磷灰石涂层。
Conclusions: after pure titanium plates pretreated, porous network oxide films were formed on the surface and after soaked in SBF and 1.5sbf, a HA coating could be precipitated on the oxide films.
结论:预处理后可在纯钛表面形成多孔网状结构的氧化膜,经仿生液处理后在氧化膜表面沉积了羟基磷灰石涂层。
Conclusions: after pure titanium plates pretreated, porous network oxide films were formed on the surface and after soaked in SBF and 1.5sbf, a HA coating could be precipitated on the oxide films.
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