采用热镀锌模拟实验装置在四种不同铝含量锌液中进行连续热镀锌实验,分别制备出具有不同锌层组织的热冲压钢。用扫描电镜、能谱仪和辉光放电光谱仪等手段研究了锌液中不同铝含量对热冲压钢镀层组织形貌的影响。结果表明,在不同铝含量的锌液中热冲压钢均具有良好的可镀性,锌液中的铝含量对锌层/钢界面处的合金层组织、形貌、化学成分和锌层光亮性均有较大的影响。在光亮退火过程中钢板表面发生锰、硅等元素的富集及选择性氧化,且Mn-Si氧化物与锌液中的铝发生氧化还原反应。锌液中的铝含量(质量分数,下同)为0.11%时,锌层/钢界面处形成了连续的ζ相;当锌液中的铝含量为0.17%时,锌层/钢界面处由Fe-Al相和ζ相组成;当铝含量为0.25%时,界面层主要为粗糙的Fe2Al5颗粒;铝含量为0.43%时颗粒状的Fe2Al5相消失,界面层变得光滑。同时,随着锌液中铝含量的提高锌层的光亮性逐渐变差。 Hot dip galvanizing simulation experiment device was used to conduct continuous hot dip galvanizing experiments in four different aluminum content zinc liquids to prepare hot stamping steel with different zinc layer structures respectively. The effects of different aluminum contents in zinc solution on the microstructure of hot stamping steel coatings were investigated by SEM, EDS and Glow Discharge Spectrometer. The results show that hot stamping steels with different aluminum content have good plating ability. The content of aluminum in zinc solution has an important influence on the microstructure, topography, chemical composition and the brightness of the zinc layer Have a greater impact. During the bright annealing process, the enrichment and selective oxidation of Mn, Si and other elements occurred on the surface of the steel sheet, and the oxidation reaction of Mn-Si oxide with aluminum in zinc solution occurred. The aluminum content (mass fraction, the same below) of zinc solution is 0.11%, the continuous ζ phase forms at the zinc layer / steel interface. When the aluminum content in the zinc solution is 0.17%, the zinc layer / Fe-Al phase and ζ phase. When the content of aluminum is 0.25%, the interfacial layer is mainly coarse Fe2Al5 particles; when the content of aluminum is 0.43%, the granular Fe2Al5 phase disappears and the interfacial layer becomes smooth. At the same time, with the increase of aluminum content in zinc solution, the glittering of zinc layer gradually becomes worse.