1) reactive thermal spray
反应热喷涂
1.
Making a comparison between ceramic coating and metal coating blade and cast iron drum dryer for wear-resist properties, we come to the conclusion that reactive thermal spraying process can enhance coati.
通过热喷涂技术并引入放热组元,制备出金属陶瓷涂层,检测了该涂层的结合强度、硬度及耐磨性;研究了反应热喷涂Al2O3金属陶瓷涂层在涂布刮刀、烘缸上的耐磨性能,并将其与金属涂布刮刀及铸铁烘缸的耐磨性能进行了比较。
2.
The results shows: reactive thermal spraying process promoted coating performance, the bonding strength of the coatings is 20MPa and porosity ratio is 5.
研究了反应热喷涂工艺及其制备的 Al2 O3金属陶瓷涂层的性能。
2) reactive thermal spraying
反应热喷涂
1.
Application of reactive thermal spraying in the preparation of ceramic blade of coating machine;
反应热喷涂法制备陶瓷刮刀
2.
A kind of Ni-Ti-C composite powder for reactive thermal spraying was prepared by thermal decomposition of precursor with sucrose as carbon source.
以蔗糖为碳源,采用前驱体热分解技术制备Ni-Ti-C系反应热喷涂混合粉末,通过氧乙炔火焰喷涂技术合成并同时沉积原位TiC颗粒增强的Ni基合金复合涂层。
3) SHS reaction thermal spraying
SHS反应热喷涂
1.
Al_2O_3-based multiphase ceramic coating of Al-CuO system prepared by SHS reaction thermal spraying on AZ91D
在AZ91D表面SHS反应热喷涂Al-CuO系Al_2O_3基复相陶瓷涂层
4) thermo-chemical reaction spraying
化学反应热喷涂
1.
Al2O3-based composite ceramic coating was prepared on the surface of copper by thermo-chemical reaction spraying.
使用热化学反应热喷涂技术,在紫铜表面喷涂制备Al2O3基复合陶瓷涂层。
5) reactive spray
反应喷涂
1.
SHS reactive spray technology, which was developed through the combination of the SHS technology and the traditional spray technology, has been developed rapidly recently.
自蔓延高温合成技术与传统热喷涂技术相融合发展的SHS反应喷涂技术,近年来获得了迅速发展。
6) reactive plasma spray
反应喷涂
1.
In this paper, nanostructured multi-phases coatings was fabricated by sprayed Ti-Al mixed-powders, via reactive plasma spraying (RPS), using the self-designed gas-tunnel type reaction camber.
在无润滑条件下,反应喷涂AlN/TiN复相涂层的耐磨性高于TiN涂层,在高载荷下,其耐磨性是TiN涂层。
补充资料:热喷涂
分子式:
CAS号:
性质:又称热喷涂。用熔融状态的喷涂材料,以一动力装置喷涂到金属、合金、塑料、陶瓷等工件表面,形成一完整的覆盖层的技术。喷涂材料可为金属或非金属,利用热源将其熔化或软化,靠热源自身动力或外加压缩气流,将熔滴雾化或推动熔粒成喷射的粒束,以一定速度喷射到基体表面形成涂层。使用的热源有气体燃烧火争、气体放电热热、电热和激光。工件经过喷涂处理,可以提高其防腐性、耐热性和耐磨性,增加其厚度或修复尺寸等。
CAS号:
性质:又称热喷涂。用熔融状态的喷涂材料,以一动力装置喷涂到金属、合金、塑料、陶瓷等工件表面,形成一完整的覆盖层的技术。喷涂材料可为金属或非金属,利用热源将其熔化或软化,靠热源自身动力或外加压缩气流,将熔滴雾化或推动熔粒成喷射的粒束,以一定速度喷射到基体表面形成涂层。使用的热源有气体燃烧火争、气体放电热热、电热和激光。工件经过喷涂处理,可以提高其防腐性、耐热性和耐磨性,增加其厚度或修复尺寸等。
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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