近几年来,纳米结构涂层的热喷涂研究成为新的发展趋势。
In recent years, unique mechanical properties of nanostructured materials motivated a worldwide interest to form nanostructured coatings.
从目前国内外的情况来看,HVOF喷涂纳米结构涂层技术的研究取得了较大的进展。
Great progress of fabricating nanostructured by HVOF has been made according to the situation home and abroad.
纳米结构涂层经过盐腐蚀或高温腐蚀后纳米晶粒明显长大,并出现微小的晶格变化及相转变现象。
After salt and high temperature corrosion, the growth of Nanostructure crystalline size and phase transformation are observed.
本文的实验研究有助于理解纳米结构涂层中的残余应力状态和选择磨削参数以控制残余应力达到期望的状态。
The current study is helpful in understanding the residual stress state in coatings and in selecting the grinding parameters to control residual stresses to a desired state.
林教授是纳米结构光子学的专家和光子晶体领域的先锋人物,他说这一新的涂层材料可以运用于几乎所有的光伏材料上。
Professor Lin, an expert in nanostructure photonics and a pioneer in the field of photonic crystals, says that the new coating could be applied to just about any photovoltaic material.
林教授是纳米结构光子学的专家和光子晶体领域的先锋人物,他说这一新的涂层材料可以运用于几乎所有的光伏材料上。
Lin, an expert in nanostructure photonics and a pioneer in the field of photonic crystals, says that the new coating could be applied to just about any photovoltaic material.
在金属材料表面形成牢固的纳米结构陶瓷涂层一直是国内外材料领域重点研究的方向之一。
It has always been one of the key research directions in the material field at home and abroad to form solid nanometer ceramic coating on the surface of metallic material.
纳米结构陶瓷涂层材料具备许多优异的物理力学性能,在工业上有广泛的应用前景。
With many excellent physical mechanics property, nanostructured ceramic coatings will be extensively used in industry.
微细的纳米结构令涂层和刀体附着力更强,涂层的表面更光滑,刀刃更加锋利,加工时达到较低的磨擦系数。
Fine structure of the nano-coating and knife body stronger adhesion, coating the surface more smooth, more sharp blade, process to achieve the low coefficient of friction.
超晶格涂层是纳米尺度下两种不同层以超晶格周期层间交替形成的多层结构,层间厚度在5—10纳米。
The superlattice coatings are an alternate multilayer structure under nanometer scale. The period thickness is 5-10 nanometer.
采用热化学反应法在Q235钢上制备纳米复合陶瓷涂层,对涂层进行结构分析及性能测试。
Nano-scale composite ceramic coating on Q235 was fabricated by thermochemical reaction method, and then structural analysis and performance test were conducted of the coating.
功能纳米涂层不受屏幕结构尺寸的限制,尤其适用于大型屏幕、异型屏幕和拼接屏幕。
The functional nano-coating is not limited by the structure and size of the screen and particularly applicable to large-size screens, special-shaped screens and spliced screens.
理解在生物相容的涂层中的纳米结构的作用有助于改进这些涂层的效用。
Understanding the effect of nanostructures within a biocompatible coating could contribute greatly towards improving the effectiveness of these coatings.
DZ40M合金表面纳米和垂直裂纹结构热障涂层的抗燃气热腐蚀性能[J]。材料工程,2014,(5):66-72。
Gas hot-corrosion resistance of nanostructure and segmentation thermal barrier coatings on DZ40M superalloy[J]. Journal of Materials Engineering, 2014, (5):66-72.
纳米涂层所具有的这种混合结构特性, 可以被其力学性能的双态分布特征所证实。
Such a characteristic of blended microstructure of the coatings is clearly confirmed from a bimodal distribution of their mechanical properties.
纳米氧化铈颗粒改变了锌涂层的表面组织形貌和晶体结构,从而提高了涂层的耐蚀性。
Ceria nanoparticles modify the surface morphology and crystal structure of the zinc matrix in correlation with the increase of corrosion resistance.
使镁合金表面涂层结构纳米化、玻璃化是表面处理工艺的发展趋势。
The new developments of surface treatment are to investigate the processes of nano-structural or glassy coatings on the surface of Mg alloys.
着重介绍了激光熔覆制备金属基纳米粒子增强涂层的组织结构和性能特征。
The microstructure, mechanical properties and application of metal matrix composites reinforced by nano-particles prepared by laser cladding are introduced.
该涂层为既有非晶又有纳米晶结构的复合涂层,同时具有纳米 结构涂层耐磨损和非晶涂层耐腐蚀的特点;
The rest is Fe. 3) Coats getting directly by hot spraying are composite materials of amorphous and nanocrystalline, which have both wear resistance and corrosion resistance.
该涂层为既有非晶又有纳米晶结构的复合涂层,同时具有纳米 结构涂层耐磨损和非晶涂层耐腐蚀的特点;
The rest is Fe. 3) Coats getting directly by hot spraying are composite materials of amorphous and nanocrystalline, which have both wear resistance and corrosion resistance.
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