摘要氧化锆陶瓷作为口腔全瓷修复材料,在生物相容性、化学稳定性、抗弯曲强度和色泽等方面具有优势。
Zirconia ceramics used in all-ceramic restoration of prosthodontics has shown favorable biocompatibility chemical stability flexural strength and color property.
研究了超细超导体瓷料用化学合成法试制的新工艺。
Reasearch for the new process of super-fine superconductor ceramic powders by chemical synthesis is introduced.
采用焊接热模拟、电化学测试、扫描电镜、X射线衍射等方法研究了热循环对喷瓷管道瓷层耐蚀性的影响。
The influence of thermal cycles on the enamel coating corrosion resistance was investigated by Weld Thermal Simulation, Electro chemical Technique, SEM and XRD.
结论:运用胶体微电解池电化学方法即点式电解蚀刻的方法可直接在口腔内修补脱瓷的金属烤瓷冠桥,短期临床效果好。
Conclusions:The technique of repairing the porcelain fused to metal restoratives of unlocking porcelain directly in mouth by spot-electrolytic etching is practical.
着重研究了粉煤灰陶瓷的显微结构,分析了瓷体在烧成过程中的物理化学变化,探讨了粉煤灰陶瓷的低温烧成机制。
This paper emphasized on the investigation of the ceramics microstrutrue, the sintering mechanism and physics-chemical change, which occurred duringthd heating process.
氧化锆陶瓷作为口腔全瓷修复材料,在生物相容性、化学稳定性、抗弯曲强度和色泽等方面具有优势。
Zirconia ceramics used in all-ceramic restoration of prosthodontics has shown favorable biocompatibility, chemical stability, flexural strength and color property.
氧化锆陶瓷作为口腔全瓷修复材料,在生物相容性、化学稳定性、抗弯曲强度和色泽等方面具有优势。
Zirconia ceramics used in all-ceramic restoration of prosthodontics has shown favorable biocompatibility, chemical stability, flexural strength and color property.
应用推荐