氮化物陶瓷

针对先进结构陶瓷介绍了国内外超塑性的研究状况，比较系统地介绍了氧化物陶瓷、氮化物陶瓷、碳化物陶瓷的超塑性。

Researches on the superplasticity of advanced structural ceramics were systematically reviewed , emphasising on three kinds of ceramics : oxide ceramics , nitride ceramics and carbide ceramics .

近年来，氮化物陶瓷在耐火材料工业中的应用，显示出其在钢铁工业中潜在的应用前景，氮化物陶瓷有可能成为新一代洁净钢用耐火材料的侯选材料。

Recently , the applications of nitrogen ceramics in refractories show potentially prospective application in iron and steel industry and nitrogen ceramics are possible to be a candidate as new refractories for clean iron making .

SiO2涂层对多孔氮化物陶瓷材料性能影响初探

Influence of Fused SiO_2 Coating on the Porous Ceramic

稀土元素在氮化物陶瓷材料中的应用研究

Applications of Rare-Earth Elements in Nitride Ceramic Materials

氮化物陶瓷的微波加工

Microwave Processing of Nitride Ceramies

采用先驱体转化法制备了2.5维石英纤维织物增强氮化物陶瓷基复合材料。

Using the polymeric precursor impregnation and pyrolysis method , 2.5-dimensional braided silica fiber-reinforced ni-tride-based composites ( 2.5D-SRNCs ) were prepared .

氮化物陶瓷/软相纳米复合薄膜作为最新的超硬薄膜材料，具备很好的硬度、韧性和较好的耐磨性。

Nitride / soft phase nanocomposite thin films as the latest superhard film have good hardness , toughness and good wear resistance .

采用硅溶胶+石英粉体在多孔氮化物陶瓷材料表面形成一层致密的过渡层，初步研究了过渡层对多孔氮化物陶瓷材料部分性能的影响。

This paper studies the properties of the porous nitride ceramic coated with the fused SiO2 coating , which is made from colloidal silicate and SiO2 powders .

综述了稀土元素在几种主要氮化物陶瓷材料中的应用现状及其作用机制，并探讨了今后的研究方向。

Current applications and acting mechanisms of rare-earth elements in several kinds of main nitride ceramic materials are reviewed in this paper . Future research directions are also discussed .

几十年来，氮化硅结合碳化硅、赛隆结合碳化硅和刚玉砖等耐火材料在钢铁工业中大显身手，预示着氮化物陶瓷在耐火材料领域有广阔的应用前景。

In recent decades , the refractories such as silicon nitride bonded silicon carbide , Sialon bonded silicon carbide and Sialon bonded corundum strut their stuff in the industry of iron and steel , and it shows nitrogen ceramics will have a promising prospective in the field of refractory .

利用Ti-Al、Ni-Al、Fe-Al和Nb-Al系的多种铝化物和MoSi2等硅化物作为氧化物、碳化物、氮化物和硼化物等陶瓷的粘结相，国内外的研究学者进行了卓有成效的工作。

Many works have been carried out in using Ti-Al , Ni-Al , Fe-Al and Nb-Al , Nb-Al and MoSi_2 as binding phase in cermets , where the hard phases include oxide , carbide , nitride , boride ceramics by researchers worldwide .