热镀锌退火过程对热镀锌板力学性能有着重要的影响。制定合理的退火温度制度,并精确控制板温,成为实现热镀锌板精准退火过程的核心问题。分析了退火工艺对热镀锌板性能的影响,针对现有退火工艺制定方法的不足提出了基于数据驱动的退火工艺制定方法,该方法能够实现热镀锌板退火工艺的持续优化。同时系统地综述了目前基于模型的热镀锌退火过程板温控制策略,针对热镀锌退火过程特点,提出了具有高适用性的数据与物理模型相混合的热镀锌退火过程温度控制方法,能够实现热镀锌板的精准热处理。 Hot-dip galvanizing annealing process has an important impact on the mechanical properties of hot-dip galvanized sheet. Developing a reasonable annealing temperature system and precise control of the plate temperature have become the core issues in the precise annealing process of hot-dip galvanized sheets. Based on the analysis of the influence of annealing process on the performance of hot-dip galvanized sheet, a method based on data-driven annealing process is proposed to overcome the deficiencies of existing annealing process. This method can achieve continuous optimization of hot-dip galvanized sheet annealing process. At the same time, a systematic overview of the current temperature control strategy of the model-based hot-dip galvanizing annealing process is proposed. According to the characteristics of the hot-dip galvanizing process, a temperature control method of hot-dip galvanizing annealing process with high applicability data and physical model is proposed. To achieve the precise heat treatment of hot-dip galvanized sheet.