Investigation on Laser Cladding MOSi2 Powder on Steel

The feasibility of the fabrication of coatings for elevated-temperature structural applications by laser cladding MoSi2 powder on steel was investigated. A dense and crack-free fine coating, well-bonded with the substrate has been obtained by this technique. This coating consists of FeMoSi, Fe2Si and a small amount of Mo5Si3 due to dilution of the substrate in the coating. The microstruelure of the coating is characterized of typical fine dendrites. The dendrites are composed of FeMoSi primary phase, and the interdendritic areas are two eutectic phases of FeMoSi and Fe2Si. The hardness of the coating reaches 845 Hv(0.5), 3.7 times larger than that of the steel substrate (180Hv(0.5)).

MoSi2硅化物的形成及电子结构的研究

于2010-11-23批量导入

激光熔覆MoSi_2粉末涂层的组织结构和性能

用XRD、SEM、EDAX和显微硬度仪研究了 4 5钢基体激光熔覆MoSi2 粉末涂层的组织结构和硬度。结果表明 ,由于基体的稀释作用 ,涂层的相组成为FeMoSi、Fe2 Si和少量的Mo5Si3 。涂层组织呈现典型的细小枝晶组织特征 ,枝晶为FeMoSi领先相 ,枝晶间为FeMoSi和Fe2 Si两相共晶 ,组织中无孔隙和裂纹等缺陷。Mo、Si、Fe线扫描成分分析表明 ,这些元素都分布在涂层 基体界面处 ,且缓慢过渡 ,基体与涂层发生互扩散 ,为冶金结合。涂层硬度可达 84 5HV0 5 ,基体硬度为 180HV0 5 ,涂层硬度比基体高 3 7倍。从涂层到基体硬度逐渐降低 ,过渡区比较缓和。

Mo原子溅射能量对Mo／Si薄膜微结构的影响

用磁控溅射法制备了Mo／Si薄膜，用AFM和XRD分别研究了Mo原子的溅射能量不同时，Mo／Si薄膜表面形貌和晶相的变化。通过比较发现，随着Mo原子溅射能量的增大，Mo／Si薄膜表面粗糙度增加，Mo和Si的特征X射线衍射峰也越来越强，并且Mo膜层和Si膜层之间生成了Mo-Si2。Mo原子的溅射能量是诱导非晶Si结晶和MoSi2生成的主要原因。