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1)  ceramic composite piping
陶瓷复合管
1.
The temperature distribution and variation in the cooling course of the ceramic composite piping prepared by centrifugal-SHS were modeled and analyzed so as to provide the basis of the choice of process parameter and interface structure analysis of the piping.
模拟分析了SHS-离心法制备陶瓷复合管道在冷却凝固过程中的温度分布和变化,从而为工艺参数的选择和管道界面结构分析提供了基础。
2)  ceramic-lined composite pipes
陶瓷内衬复合管
1.
Influences of pre-coating technique on interface of ceramic-lined composite pipes fabricated by the SHS process;
预涂覆工艺对SHS陶瓷内衬复合管界面的影响
2.
Influences of metallic additive on microstructures and interface-bonding of ceramic-lined composite pipes fabricated by the SHS process;
金属添加剂对SHS陶瓷内衬复合管微观结构与界面连接的影响
3.
On the basis of using gravitational separation SHS process to produce ceramic-lined composite pipes, the influence of Ni content on combustion characteristics and mechanical properties is investigated.
采用SHS重力分离技术制备陶瓷内衬复合管,通过改变主燃烧配系组元Ni的含量,研究分析了金属Ni对陶瓷内衬复合管制备的燃烧特性及机械性能的影响。
3)  Ceramic-lined compound pipe
复合陶瓷内衬管
4)  ceramic-lined pipes
陶瓷内衬复合管
1.
Study on influences of mechanical vibration on ceramic-lined pipes produced by self-propagating high-temperature syntheses;
低频机械振动对自蔓延陶瓷内衬复合管衬层性能影响研究
5)  Ceramic lined Composite Pipe
陶瓷内衬复合管
6)  composite pipe
陶瓷复合钢管
1.
The experiment results show that the higher temperature by adding CrO 3 can improve the composite pipe's properties.
利用离心自蔓延高温合成法 ,制备陶瓷复合钢管。
2.
The effects of SiO 2 and CrO 3 on the relative density and microhardness were studied, meanwhile the compressive and shear strength of a series of composite pipes containing different volume additives were compared.
采用重力分离自蔓延高温合成技术,制备了陶瓷内衬复合钢管,研究了添加CrO3和SiO2对陶瓷复合钢管的压溃强度、压剪强度、陶瓷层相对密度、显微硬度的影响。
补充资料:玻璃陶瓷基复合材料
分子式:
CAS号:

性质:又称微晶玻璃基复合材料。以玻璃陶瓷为基体,以陶瓷、碳、金属等纤维、晶须、晶片为增强体,通过复合工艺所构成的复合材料。玻璃陶瓷基复合材料的基本材料主要有锂铝硅微晶玻璃(LAS,1000~1200℃)、镁铝硅微晶玻璃(MAS,1200℃)、钡镁铝硅微晶玻璃(1250℃)、四元莫来石(约1500℃)和六方钡长石(约1700℃)等。玻璃陶瓷基复合材料的力学性能特别是韧性比原基体材料确实有较大的提高。例如用连续纤维增强玻璃陶瓷其强度范围为700~1000MPa·ml/2。而原基体材料的强度范围为70~150MPa,断裂功2~4J·m-2,断裂韧性为1MPa·m1/2以下。制造小型雷达天线罩、复合装甲、耐腐蚀化学品容器、生物医药用容器和耐热部件等。

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