1) mesoscopic structures of ceramic
陶瓷介观结构
1.
So it isof significance to analysis the mesoscopic structures of ceramic.
直接观测分析陶瓷介观结构对应力分布和力学性能的影响往往受到许多条件的限制。
2) structural ceramic
结构陶瓷
1.
Thermal stress analysis for structural ceramics during laser beam machining;
结构陶瓷激光加工的热应力分析
2.
Al2O3 structural ceramic has many advantages such as high strength, high hardness and good wear resistance.
Al2O3结构陶瓷具有高强度和硬度且耐磨等诸多优点,但其脆性大,从而制约了其应用。
3.
Silicon resins have become an important joining material for structural ceramics.
有机硅树脂已经成为结构陶瓷的重要连接剂之一。
3) structural ceramics
结构陶瓷
1.
Progress on research of joining structural ceramics with silicon resin;
用有机硅树脂连接结构陶瓷的研究进展
2.
As the present advantaged situation of rare-earth resources in our country,the application and mechanisms of rare-earth element in structural ceramics,such as Al2O3,Si3N4,ZrO2,functional ceramics,such as dielectric ceramics,piezoelectric ceramics,conducting ceramics and glaze materials were elaborated in detail through the rare-earth element atomic structure and chemical characteristic.
针对我国稀土资源得天独厚的现状,从稀土元素的原子结构和化学特性出发,较详细地阐述了稀土元素在Al2O3、Si3N4、ZrO2等结构陶瓷以及介电、压电、导电陶瓷等功能陶瓷和陶瓷色釉料中的应用以及作用机理。
4) structure ceramic
结构陶瓷
1.
The influencing factors of high temperature creep of structure ceramics;
结构陶瓷高温蠕变的影响因素
2.
The results indicated: the PN-2,APN-2 high temperature active filler metals had good ability of plastic deformation,had good wetting property on structure ceramics,its could directly broze structure ceramics,structure ceramics and metals compone.
结果表明 :PN - 2 ,APN - 2高温活性钎料具有良好的塑性变形能力 ,对结构陶瓷具有优异的润湿性 ,可直接钎焊结构陶瓷和结构陶瓷 /金属组
3.
Structure ceramics are becoming popular materials for industrialcomponents, and grinding with diamond wheel has been widely used in theproduction of structure ceramics components.
结构陶瓷材料因其优异的机械、热学等性能而被广泛应用于各个工业领域,显示出优良的适应性和广阔的应用前景。
5) structure ceramics
结构陶瓷
1.
The formation and characteristics of residual stress are investigated by the grinding and XRD test of structure ceramics ZrO2 .
本文应用X射线衍射法就几种常用结构陶瓷磨削表面残余应力的形成机理、状态特征及与磨削用量的关系进行实验研究。
2.
Ground surface crack is more frequency and more dangerous than other grinding damages to structure ceramics.
结构陶瓷的磨削表面微裂纹是较常见和较危险的磨削损伤。
补充资料:工程陶瓷(见结构陶瓷)
工程陶瓷(见结构陶瓷)
engneering ceramics
工程陶瓷en毋ering。eramies见结构陶瓷。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条