1) ceramic binder sinters
陶瓷结合剂烧结体
1.
SEM was used to observe the microstructure of Ti - coated CBN sinters with ceramic binder sinters and XRD was used to analyze the sinters of CBN with Ti coat and without Ti coat.
使用SEM对Ti涂层CBN与陶瓷结合剂烧结体的显微结构进行了观察,用电子探针对其进行面扫描和定点分析,同时用X射线衍射法对有Ti涂层和无Ti涂层的CBN与陶瓷结合剂的烧结体进行了物相分析。
2) ceramic
[英][sə'ræmɪk] [美][sə'ræmɪk]
陶瓷烧结体
1.
The oxygen-sensing mechanism and ceramic, thick filmand thin film techniques used for manufacturing the sensors were presented.
本文介绍了TiO2氧传感器的工作原理和制作过程中采用的三种工艺,即陶瓷烧结体、厚膜和薄膜技术。
3) vitrified bond
陶瓷结合剂
1.
Research on low-temperature high-strength vitrified bond;
低温高强度陶瓷结合剂的研究
2.
Effect of pyrophyllite and dolomite on the microstructure and properties of vitrified bond grinding tools;
叶蜡石、白云石对陶瓷结合剂磨具微观结构和性能的影响
3.
Influence of alkali metal oxides on properties of cBN vitrified bond;
碱金属氧化物对cBN陶瓷结合剂性能的影响
4) ceramic bond
陶瓷结合剂
1.
In this paper,the effect of temperature and α-Al2O3 additive on the ceramic bonding of grinding tools was discussed.
在陶瓷磨具的制作过程中,α-Al2O3经常作为一种填料加入到陶瓷结合剂中,用以改善陶瓷磨具的强度、烧结温度等性能。
2.
An algorithm was introduced to design accurately optimized formula of materials to fulfill the need of chemical components of ceramic bonds.
本文利用计算机技术,对陶瓷结合剂化学成分进行精密计算,在此基础上,根据结合剂所需要的化学成分,采用数学模型精确优化设计出陶瓷结合剂配方(即各种原材料的配比),文章介绍了上述算法具体实现方法,给出了算法模型和精确的程序语言描述,算法重点解决了误差放大、计算稳定性等工程计算问题,对实际系统运行样本数据进行了验证。
6) sintered ceramic
烧结陶瓷
1.
The corrosion resistance of sintered ceramics made by Al2O3-ZrO2 in real seawater system for 1 year was investigated using SEM and pore size distribution testing,The results indicate that sintered ceramics made by Al2O3-ZrO2 display excellent corrosion resistance and can be used safely in seawater.
通过对Al2O3-ZrO2烧结陶瓷的SEM、孔径分布等多项性能表征,研究了该烧结陶瓷材料的耐海水腐蚀性能。
补充资料:半透明烧结镁铝尖晶石陶瓷
分子式:
CAS号:
性质:又称半透明烧结镁铝尖晶石陶瓷。在0.3~6.5μm范围的线性光透射率大于10%,可见光范围的总透射率约为75%。用镁-铝的盐或氢氧化物的热分解产物为原料,添加少量烧结促进剂氧化钙等。在真空中经1800~1900℃或湿氢气氛中1700℃左右烧结成半透明陶瓷。可用于制作高温电弧、密封外壳、天线窗、红外透射装置等。
CAS号:
性质:又称半透明烧结镁铝尖晶石陶瓷。在0.3~6.5μm范围的线性光透射率大于10%,可见光范围的总透射率约为75%。用镁-铝的盐或氢氧化物的热分解产物为原料,添加少量烧结促进剂氧化钙等。在真空中经1800~1900℃或湿氢气氛中1700℃左右烧结成半透明陶瓷。可用于制作高温电弧、密封外壳、天线窗、红外透射装置等。
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