摘要
在煤油、雾和混AL粉准干式工作介质中对H13钢进行电火花表面强化,以钛合金为工具电极,并对强化层的微观组织、厚度及硬度进行了分析。分析结.果表明,在3种不同工作介质条件下获得的强化层组织均呈橘皮状,且强化层截面由表及里依次由白亮层、过渡层和基体组成。在混AL粉准干式介质条件下的强化层表面更平整,组织更致密,且强化层的厚度比雾和煤油工作介质条件下的厚度要高,分布也更均匀。强化层的硬度较基体H13钢均有大幅提高,且在混AL粉准干式工作介质条件下的平均显微硬度明显高于雾状和煤油介质条件下的强化层硬度。
The surface of H13 steel was investigated by means of electro spark surface strengthening in kerosene, fog and mixed AL powder. The microstructure, thickness and hardness of the strengthened layer were analyzed. The analysis results show that the obtained in 3 different working medium under the condition of strengthening layer was orange peel, and the strengthening layer section from the outside to the inside followed by the white layer, transition layer and matrix com-position. Under the condition of mixed AL powder, the surface of the strengthened layer is more smooth, the structure is more compact, and the thickness of the strengthened layer is much higher than that of fog and kerosene working medium, and the distribution is more uniform. The average micro hardness of the mixed AL powder was higher than that of the mist and kerosene medium.
出处
《中国化工装备》
CAS
2017年第2期3-7,共5页
China Chemical Industry Equipment
关键词
H13钢
电火花表面强化
混粉准干式
微观组织
显微硬度
H13 steel
electro spark strengthened surface
mixed powder quasi-dry
microstructure
microhardness