半导体激光熔覆Co/B_4C复合材料的研究

Co/B_4C Composite Coatings on Medium Carbon Steel Produced by Diode Laser Cladding

采用3kW半导体激光在45#基体上激光熔覆Co/B4C复合材料,并研究了B4C含量对熔覆层裂纹、组织和硬度的影响规律,获得了最佳的B4C含量。结果表明,B4C含量从w(B4C)=1.0%增加到w(B4C)=2.0%时,熔覆层无裂纹和气孔等缺陷,B4C达w(B4C)=3.0%时,熔覆层出现裂纹;熔覆层与基体呈冶金结合,呈致密均匀的枝晶组织,枝晶组织随B4C含量增加逐渐细化;随着B4C含量的增加,熔覆层的显微硬度由无B4C的HV0.2 400提高到约HV0.2 900,强化效果显著。

A 3 kW diode laser was adopted to produce Co/B4 C composite coatings on medium carbon steel. Influences of Ccontent on cracking, microstructure and microhardness of the laser-clad coatings were investigated to optimize the B4 C content.Results show that the laser-clad coatings with B4C content from 1.0wt. 0% to 2.0wt5 were free of cracks and pores, but thecoating containing 3.0wt. 154 C presented cracks; Laser-clad coatings were metallurgically-bonded to the substrate, displayedfine dendrite and became finer with an increase in 134 C content. Significant strengthening effect （mierohardness from HV0.2 400 to HV0.2 900） was achieved by the introduction of B4C particulate.