1) multi-phase structural ceramic
复相结构陶瓷
1.
Taking Ti-B4C-sucrose (precursor of carbon) as the main reactive system, and adding 5wt% Al, tests of self-reactive spray forming multi-phase structural ceramic blanks were carried out.
以Ti-B4C-蔗糖(C的前驱体)为主体系,添加5wt%Al进行自反应喷射成形复相结构陶瓷坯件试验,分析Al对其反应特性的影响。
2) structural ceramic contain carbon
碳复合结构陶瓷
3) composite ceramics
复相陶瓷
1.
Preparation of cordierite-mullite composite ceramics;
堇青石-莫来石复相陶瓷制备
2.
Sintering behavior and dielectric property of BST-BZN composite ceramics
BST-BZN复相陶瓷的烧结行为和介电性能
3.
Study on the dielectric properties of MgO-Ba(Zr_(0.2)Ti_(0.8))O_3 composite ceramics
MgO-Ba(Zr_(0.2)Ti_(0.8))O_3复相陶瓷介电性能研究
4) composite ceramic
复相陶瓷
1.
Effect of BN content on the properties and microstructure of AlN-BN composite ceramics by injection molding;
BN含量对注射成形AlN-BN复相陶瓷性能和组织的影响
2.
Preparation of Al_2O_3-based composite ceramics by combining hydrothermal processing with co-precipitation;
Al_2O_3基复相陶瓷共沉淀—水热法制备研究
3.
3SrO·(1-y)TiO2·yNb2O5)composite ceramics were prepared by sol-gel method in which BST slabby sol solution were fabricated firstly to suspend Nb2O5 fine powders.
yNb2O5)复相陶瓷。
5) multiphase ceramic
复相陶瓷
1.
Preparation and characteristics research of the doping W~(6+) into Zr(WV)_xO_y multiphase ceramic
掺杂W~(6+)的Zr(WV)_xO_y质复相陶瓷的制备及特性研究
2.
Nano multiphase ceramic helix muzzle was made of nano-ZrO2 and micron Al2O3, experiment results proved that nano-ZrO2 help to preparation thin crystal ZTA multiphase ceramic.
以纳米ZrO2、微米Al2O3为原料制备纳米复相陶瓷喷嘴。
3.
Friction and wear behaviors were studied for Ti_3SiC_2/SiC multiphase ceramics/45 steel pairs under unlubricated and lubricated.
研究了由热等静压原位合成的Ti3SiC2/SiC复相陶瓷与45#钢在干摩擦和边界油润滑条件下的摩擦磨损特性。
6) ceramic composite
复相陶瓷
1.
Crack extension behavior of intragranular ceramic composites;
内晶结构复相陶瓷的裂纹扩展行为
2.
ZrO_2/SiC-WSi_2/MoSi_2 ceramic composites were prepared by hot-pressed sintering after ZrO_2 and SiC nanoparticles were dispersed and mixed by wet-milling.
将纳米 ZrO_2和 SiC 颗粒与微米 WSi_2/MoSi_2颗粒进行球磨分散、混合,通过热压烧结制备 ZrO_2/SiC-WSi_2/MoSi_2复相陶瓷,研究了它的显微结构与耐磨性并与 MoSi_2材料进行了对比。
补充资料:复相
复相
磁共振成像术语。磁共振成像中,施加90°射频脉冲可使外磁场(B0)内的质子运动频率趋向一致(聚相)。90°射频脉冲中止后,原有的质子进动相位的一致性逐渐消失,导致横向磁化矢量消失。若再施加适当的射频脉冲,如180°射频脉冲,则可使质子的运动频率重新趋向一致,称为相位重聚,简称复相。
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