摘要
High-speed injection die casting is an efficient manufacturing technology for upgrading aluminum die-cast products.However,deficiencies(such as die damage in early period)due to larger load on the molding die compared with conventional technology have brought new challenges.In this study,the cause of damage generated in super high-speed injection was investigated by the combination of experimental observation of the dies and CAE simulation(e.g.die temperature analysis,flow analysis and thermal stress analysis).The potential countermeasures to solve the above problems were also proposed.
High-speed injection die casting is an efficient manufacturing technology for upgrading aluminum die-cast products. However, deficiencies (such as die damage in early period) due to larger load on the molding die compared with conventional technology have brought new challenges. In this study, the cause of damage generated in super high-speed injection was investigated by the combination of experimental observation of the dies and CAE simulation (e.g. die temperature analysis, flow analysis and thermal stress analysis). The potential countermeasures to solve the above problems were also proposed.
关键词
铸件
铸造
CAE
计算机
CAE simulation
die casting
heat check
thermal stress