1) ferroalloy-based composites
铁合金基复合材料
1.
In this paper,the effects of alloying,sintering,and heat-treatment on the properties and microstructures of SiCp/ferroalloy-based composites were studied,:It was found that SiC particles reacted with ferroalloy when sintered in 1100.
碳化硅因其高强度、高模量、耐热、耐磨等优良性能而被作为颗粒增强体来制备铁基复合材料,但因其共价键与铁基体的金属键之间的本质区别导致两者复合困难,本文拟从基体合金化、烧结及热处理工艺等方面对铁合金基复合材料组织与性能的影响进行考察,具体内容如下: 加入Fe-Cu-C基体中的SiCp颗粒,1100℃烧结时就已经开始发生分解,但反应不强烈,在颗粒表面镀镍可以延缓基颗粒与基体之间的反应。
2) ferrous matrix composites
铁基复合材料
1.
Microstructure and Properties of In-situ Synthesized VC Particles Reinforced Ferrous Matrix Composites;
原位合成VC颗粒增强铁基复合材料的微观组织与性能
2.
At present, the research about the fabrication technics of in situ synthesized ferrous matrix composites has become grown up , but the reports about heat treatment of ferrous matrix composites is few.
采用中频感应电磁炉,根据原位反应铸造原理(in situ)制备颗粒增强铁基复合材料。
3) Iron Matrix Composite
铁基复合材料
1.
Present condition and prospects of SiC particulate reinforced iron matrix composites;
SiC颗粒增强铁基复合材料的现状及展望
2.
Microstructure and properties of in-situ synthesized WC_p/W wires reinforced iron matrix composites
原位合成WC_p/W丝增强铁基复合材料的组织与性能
3.
The SiC particulate reinforced iron matrix composite prepared by powder metallurgy method was studied.
文章论述了采用粉末冶金方法制备了 Si C颗粒增强铁基复合材料 ,通过实验观察分析了 Si C颗粒对材料致密度、硬度、强度及耐磨性的影响。
4) ferrous matrix composite
铁基复合材料
1.
Development and application of ferrous matrix composites in foreign countries;
国外铁基复合材料的发展及应用
5) Iron matrix composites
铁基复合材料
1.
Particle reinforced iron matrix composites possessing the advantages of steel (oriron) matrix and ceramic particle reinforcements are the ideal choice for applicationsof wear resistant materials, refractory alloys and tool materials.
颗粒增强钢铁基复合材料能够将陶瓷材料和钢铁材料的优点融为一体,是耐磨材料、摩擦材料、高温合金及工具材料的理想应用对象。
2.
Gray cast iron matrix composites reinforced by tungsten wires were investigated in the as-cast and heat treatment conditions, heat treatment at 1 000 ℃ and 1 100 ℃ respectively.
研究了铸态和热处理态两种情况下的钨丝增强灰铸铁基复合材料,热处理的温度分别为1000℃和1100℃。
6) iron-based composites
铁基复合材料
1.
The processes of in-situ synthesized TiC reinfored iron-based composites in home and abroad are reviewed .
综述了国内外原位合成TiCp增强铁基复合材料工艺的研究现状,重点分析了制备工艺的特点及存在的问题,并在此基础上展望了该领域的发展趋势。
2.
The research situation and application of in-situ synthesized particles reinforced iron-based composites in China and abroad was summarized including materials choice, process and its principle.
从材料选择、工艺、原理的角度综述了国内外原位合成颗粒增强铁基复合材料的研究与应用,具体分析了基体和颗粒(TiC、SiC、WC)的界面反应以及部分工艺的优缺点,对开展颗粒增强铁基复合材料的研究有指导意义。
3.
Both of TiC and VC are the ideal reinforcement in iron-based composites.
TiC、VC都是铁基复合材料的理想增强体,尽管对燃烧合成TiC增强铁基复合材料的研究相对较多,但都是在高于1000℃条件下进行的。
补充资料:金属丝增强高温合金基复合材料
分子式:
CAS号:
性质:以镍基、钴基、铁基高温合金为基体,以钨合金丝(W-ThO2、W-Re、W-Re+ThO、V-Hf、W-Re-Hf-C)增强的高温金属基复合材料。钨合金丝具有良好的高温性能,W-2%ThO丝1024℃时强度为1034MPa,100h的断裂应力为483MPa,W-Re-Hf丝为更高,1204℃强度为1937MPa,100h断裂应力为910MPa,而镍基、钴基高温合金具有良好的抗氧化及高温性能,它们组成的高温复合材料具有突出的高温性能,用于高性能航空发动机的叶片和构件。
CAS号:
性质:以镍基、钴基、铁基高温合金为基体,以钨合金丝(W-ThO2、W-Re、W-Re+ThO、V-Hf、W-Re-Hf-C)增强的高温金属基复合材料。钨合金丝具有良好的高温性能,W-2%ThO丝1024℃时强度为1034MPa,100h的断裂应力为483MPa,W-Re-Hf丝为更高,1204℃强度为1937MPa,100h断裂应力为910MPa,而镍基、钴基高温合金具有良好的抗氧化及高温性能,它们组成的高温复合材料具有突出的高温性能,用于高性能航空发动机的叶片和构件。
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