摘要
为分析激光熔覆法制备TiC/Ti复合材料显微形貌的成因,对功率密度为21.2 kW/cm2、扫描速度15mm/s的CO2激光作用下的Ti-6A l-4V合金表面进行了Ti+TiC激光熔覆实验,并对其熔覆层温度波动进行了分析。采用XRD、SEM对Ti+TiC熔覆层进行表征,并测定熔覆层的显微维氏硬度。分析表明:用激光熔覆制备TiC/Ti复合材料时,熔覆层在数毫秒内熔化,并以约104℃/s速率初始冷却。熔覆层的维氏硬度高达10.8 GPa,Ti填充杂乱的TiC枝晶间。熔覆层与基体具有良好的冶金结合,且热影响区厚度与经验计算值相近。
Aimed at analyzing the formation of microstructure of Ti + TiC mixture prepared by laser cladding, this paper describes Ti + TiC laser cladding experiment on Ti -6A1 -4V( mass ratio)alloy sur- face subjected to C02 laser with 21.2 kW/cm2 power density and 15 mm/s scanning velocity and an anal- ysis of the temperature variation of cladding layer. The paper introduces the characterization of the Ti + TiC clad layer by using XRD, SEM and the determination of microstructure and micro-hardness of cladding layer. The results shows that: in the case of TiC/Ti composite materials in cladding layer synthesized by Ti + TiC mixture, the mixture is found to melt in several microseconds, and cool down in 104 ℃/s. In clad layer, its micro hardness is up to 10.8 GPa, and Ti fills up TiC dendrite. Cladding layer has a better metallurgical bonding with Ti -6A1-4V alloy matrix, and the depth of heat affected zone is close to empirical calculating value.
出处
《黑龙江科技学院学报》
CAS
2010年第4期272-276,共5页
Journal of Heilongjiang Institute of Science and Technology
基金
黑龙江省教育厅科学技术研究项目(11513099)
