探讨有限元分析在轮胎活络模具中的应用,通过有限元模拟分析轮胎硫化过程中的传热升温情况,对模具的结构进行优化,增加传热面积,缩小模具内部零件之间的间隙,提高轮胎硫化质量和效率。通过对模具结构进行优化,减少热量损失,提高轮胎硫化过程中蒸汽热量利用率,达到节能减排,绿色制造的目的。 In this paper, the application of finite element analysis in the tire active mold is discussed. The heat transfer and temperature rise of the tire vulcanization process is analyzed by finite element analysis, the structure of the mold is optimized, the heat transfer area is increased, the clearance between the parts inside the mold is reduced, Vulcanization quality and efficiency. Through the optimization of the mold structure to reduce heat loss and improve the utilization of steam in the tire curing process, to achieve energy-saving emission reduction, green manufacturing purposes.