1) SiC
SiC基体
1.
Influence of Process Technology on the Properties of CVI-SiC Matrix and Its Composites;
CVI工艺对CVI—SiC基体及C/SiC复合材料性能的影响
2) 4H-SiC substrate
4H-SiC基底
1.
Al2O3/SiO2 double-layer UV antireflection coatings were designed and fabricated on 4H-SiC substrate,and the validity of theoretical design was further verified by scanning electron microscope (SEM) and reflection spectrum.
在4H-SiC基底上设计并制备了Al2O3/SiO2紫外双层减反射膜,通过扫描电镜(SEM)和实测反射率谱来验证理论设计的正确性。
3) SiC-based Ceramic
SiC基陶瓷
1.
Fabrication of Nano-porous SiC-based Ceramics Using Template Method;
模板法制备SiC基陶瓷纳米孔结构材料
4) SiC substrate
SiC基片
1.
5) alloy and SiC substrate was studied on the ground.
5)合金与不同空间方位SiC基片间的润湿性,利用SEM、XRD、EPMA等方法研究了润湿界面,还制备出SiC颗粒增强Zr_(41。
2.
5 alloy drop on SiC substrate;liquid Zr41.
5合金熔体在SiC基片上方和Zr41。
5) RB-SiC substrate
RB-SiC基底
1.
A improved technological process to the surface modification of a RB-SiC substrate mirror was proposed according to the material special properties of the large scale and complicated light weighted RB-SiC materials for space projects.
为了满足空间用大口径、复杂轻量化结构RB-SiC基底反射镜对高性能表面质量的需求,针对RB-SiC基底的特性,提出了改进表面改性工艺的方法。
6) SiC crystal
SiC晶体
1.
Fabrication of nanostructures on 6H SiC crystal illuminated by 800 nm and 400 nm femtosecond laser is studied.
研究了800nm和400nm飞秒激光垂直聚焦于6H SiC晶体表面制备纳米微结构。
补充资料:bioactive glass-ceramic composite reinforced by SiC whisker
分子式:
CAS号:
性质:由碳化硅晶须与生物活性玻璃陶瓷复合而成的生物陶瓷复合材料。高强度、高弹性模量、无毒的碳化硅晶须在陶瓷基材中弥散分布,使材料中的裂纹相对均匀,裂纹扩展发生转向和分支;外力作用下碳化硅晶须拔出时产生的拔出效应,使复合陶瓷的弯曲强度达460MPa,断裂韧性达4.3MPa·m1/2,维伯尔系数高达24.7,标志着它是可承力的生物陶瓷复合材料。
CAS号:
性质:由碳化硅晶须与生物活性玻璃陶瓷复合而成的生物陶瓷复合材料。高强度、高弹性模量、无毒的碳化硅晶须在陶瓷基材中弥散分布,使材料中的裂纹相对均匀,裂纹扩展发生转向和分支;外力作用下碳化硅晶须拔出时产生的拔出效应,使复合陶瓷的弯曲强度达460MPa,断裂韧性达4.3MPa·m1/2,维伯尔系数高达24.7,标志着它是可承力的生物陶瓷复合材料。
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