1) reaction spray molding
反应喷涂成型
1.
This paper has reviewed the reaction spray molding (RSM) technology of polyurea - polyurethane and its application scope.
介绍了聚脲-聚氨酯反应喷涂成型技术的基本情况及应用范围。
2) 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。
3) 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。
4) self-reactive spray forming
自反应喷射成型
1.
A new technology, self-reactive spray forming, to prepare ceramic materials with low cost and nearly final molding properties is advanced by introducing the Self-propagating High-temperature Synthesis(SHS) technology to the metal spray forming technology.
借助具有快速凝固特点的金属喷射成型思想,引入自蔓延高温合成技术,开发了一种制备新结构陶瓷材料的低成本、近终成型方法——自反应喷射成型陶瓷材料技术,并利用该技术制备了TiC-TiB2基结构陶瓷材料。
2.
Based on the SHS reaction of Ti-B4C-sucrose system,Ti(C,N)-TiB2 ceramic preforms were prepared by self-reactive spray forming technology.
基于Ti-B4C-蔗糖体系,自反应喷射成型了Ti(C,N)-TiB2复相陶瓷坯件,通过淬熄试验和碰撞试验,研究了喷射粒子的飞行燃烧与自蔓延反应特性。
5) reactive flame spray synthesis (RFSS)
反应火焰喷涂合成
6) 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。
补充资料:垫增强反应注射成型
分子式:
CAS号:
性质:又称垫增强反应注射成型。一种复合材料的成型加工方法。在模具内铺垫由玻璃纤维无规组成的非编织毡,再以反应注射成型工艺注射物料得到制品。此种工艺与普通增强反应注射成型工艺的区别是纤维长,充填量大,可高达60%~70%,因此增强效果更好,可作为结构材料使用。
CAS号:
性质:又称垫增强反应注射成型。一种复合材料的成型加工方法。在模具内铺垫由玻璃纤维无规组成的非编织毡,再以反应注射成型工艺注射物料得到制品。此种工艺与普通增强反应注射成型工艺的区别是纤维长,充填量大,可高达60%~70%,因此增强效果更好,可作为结构材料使用。
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