1) ceramic nozzle
陶瓷喷嘴
1.
Si_3N_4/TiC and Al_2O_3/TiC ceramic nozzles were fabricated by the hot-pressing technique.
在相同条件下,硬度较高的Al_2O_3/TiC陶瓷喷嘴的磨损率较低,而断裂韧性较高的Si_3N_4/TiC陶瓷喷嘴的热冲击损伤较小。
2.
Idea of functionally gradient material(FGM) theory was used to the design of ceramic nozzle.
针对陶瓷喷嘴磨损特点,在喷嘴材料的设计和制造中提出运用梯度功能材料理论,通过控制陶瓷喷嘴材料的成分分布以实现其力学性能的合理梯度变化,将梯度陶瓷喷嘴材料制备过程中所产生的残余压应力引入喷嘴入口以提高喷嘴入口的力学性能,从而缓解喷嘴入口的高应力,提高其抗冲蚀磨损能力。
3.
The erosion wears mechanism and the effects of different abrasives on the wear of ceramic nozzles are investigated.
研究了陶瓷喷嘴材料的冲蚀磨损机理以及不同冲蚀磨料对陶瓷喷嘴冲蚀磨损的影响。
2) ceramic nozzles
陶瓷喷砂嘴
1.
Research on erosion of ceramic nozzles based on gas-solid two phase flow theory;
基于气固两相流理论的陶瓷喷砂嘴冲蚀磨损研究
2.
The life time of ceramic nozzles is increased by a factor of 30~40 in comparison with 40Cr cast alloy.
陶瓷喷砂嘴比40Cr材质喷砂嘴使用寿命提高30~40倍,并减轻工人劳动强度、提高生产效率、降低产品成本。
3) ceramic nozzle
陶瓷喷砂嘴
1.
The analysis of flow field in ceramic nozzles using finite element method;
陶瓷喷砂嘴流场的有限元分析
4) ceramic-lined nozzle
内衬陶瓷喷嘴
5) ceramic burner
陶瓷燃烧器喷嘴
6) laminated ceramic nozzle
叠层陶瓷喷嘴
1.
Under same erosion conditions,the laminated ceramic nozzles have superior erosion wear resistance to that of the common ceramic nozzle;the experimental value of optimal layer thickness ratio is 2.
为提高陶瓷喷砂嘴抗冲蚀磨损能力,缓解喷嘴入口、出口的高应力状态,采用热压烧结工艺制备了Al2O3+(W,Ti)C/Al2O3+TiC三层对称型叠层陶瓷材料及叠层陶瓷喷嘴。
补充资料:电解质陶瓷(见快离子导体陶瓷)
电解质陶瓷(见快离子导体陶瓷)
electrolyte ceramics
电解质陶瓷electrolyte陶瓷。Cera』n1CS即快离子导体
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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