1·Exploiting ordered alloys based on intermetallic compounds has important significance. Solving brittleness at room temperature is the key problem.
开发金属间化合物为基的有序合金具有重要意义,迫切的问题是解决室温脆性。
2·Smelting and casting technology for intermetallic compounds were introduced briefly.
简要介绍了金属间化合物的熔炼与铸造工艺。
3·Up to now, the technology has been used to prepare supersaturated solid solution, amorphous alloys, intermetallic compound, nanocrystalline, magnetism materials, superconductor materials, and etc.
现在,运用这一技术已成功制备出过饱和固溶体、非晶、金属间化合物、纳米晶材料和超导材料、磁性材料等。
4·The thickness of intermetallic compounds (IMC) layer with OSP was higher than that of I-Ag.
结果显示,采用有机保护层的焊接界面金属间化合物层厚度明显超过了浸银层;
5·Composite alloy coatings of intermetallic compound dispersed and distributed in amorphous alloypossess excellent corrosion resistance and abrasion performance.
非晶基上弥散分布着金属间化合物的复相合金镀层,具有优异的耐蚀性及良好的耐磨性。
1·The grain refinement and formation of intermetallic play an important role for improving the performance in the laser cladding layer.
激光熔覆层中的晶粒细化和金属间化合物的形成对性能的提高起到重要作用。
2·After laser melting, NiAl intermetallic play a important role of higher hardness and antiwear properties.
激光熔凝后产生的金属间化合物对提高复合镀层的硬度和耐磨性起到重要的作用。