摘要
针对镁合金热连轧过程中已发生边裂的问题,采用ANSYS变形热力耦合数值分析法,对AZ31镁合金板在350℃、0.5 m·s-1轧制速度下的三道次连轧过程进行了有限元模拟,并应用LS-DYNA后处理器对轧制过程中镁板不同部位的温度、应力分别进行了分析,并对模拟结果进行实验验证。研究结果表明:热连轧过程中,首道次镁板温降值较大,而且不同位置的温降幅值不同;此外,轧制过程中镁板边部中心层应力始终大于中部表层应力值。轧制过程中温度的不均匀变化以及边部应力集中使得镁合金在热连轧过程中易于发生边裂。
For the problem of edge crack in hot tandem rolling of magnesium alloy, the process of three passes tandem rolling for magnesium alloy AZ31 sheet was simulated by ANSYS with the thermo-mechanical coupled analysis at temperature 350 ℃ and rolling speed 0. 5 m · s - 1. Furthermore, the temperature and stress in different parts of the magnesium plate were analyzed by LS - DYNA in the rolling process, and the simulation resuh was verified by the experiment. The research results show that in the hot tandem rolling, the temperature drop of magnesium plate is greater on the first pass, and they are varied on different parts. Moreover, the stress of center layer edge is greater than that of the middle surface layer in the roiling process. Due to change of non-uniform temperature and the edge stress concentration, the edge crack of magnesium alloy plate occurs easily in the hot tandem rolling.
出处
《锻压技术》
CAS
CSCD
北大核心
2016年第2期144-147,共4页
Forging & Stamping Technology
基金
国家自然科学基金资助项目(51105264)
太原科技大学研究生科技创新项目(20145005)
关键词
AZ31镁合金
热连轧
边裂
热力耦合分析
magnesium alloy AZ31
hot tandem rolling
edge crack
thermo-mechanical coupled analysis
