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压铸充型过程中卷气现象的数值模拟研究 被引量:17

NUMERICAL SIMULATION OF AIR ENTRAPMENT PHENOMENON DURING MOLD FILLING OF HIGH PRESSURE DIE CASTING PROCESS
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摘要 采用一种液-气两相耦合模型模拟了压铸充型过程中的卷气现象,对卷入金属液中的每个气泡均单独计算其压力变化的趋势,通过压力传递将液-气两相联系在一起.为了验证模型的可靠性和准确性,开展了专门针对压铸的高速水模拟实验,并采用液-气两相耦合模型以及单相流模型分别进行了模拟,通过比较可以证实两相耦合模型在模拟卷气方面比单相流模型具有更高的精确度. The most common defect found in the high pressure die casting(HPDC) process is gas porosity which significantly affects the mechanical properties of the final components.As it is known,the air entrapment of the liquid metal flow during the mold filling stage has a close relationship with the gas porosity distribution in die castings.The generation of the entrapped air is mainly due to the interaction between air and liquid metal in the die cavity.In the past few decades,extensive efforts have been made to develop numerical models for the simulation of mold filling.However,these efforts mainly focused on the single phase flow models which can only predict the liquid metal flow and assume that the effect of air in the die cavity is negligible.As a result, these models could not provide the quantity and location of entrapped air in die castings.Recently, several research results on tracking the entrapped air in the molten metal flow have been reported but some techniques still need to be improved further and much more researches are required.In this study,a liquid-gas coupled model is presented to simulate the air entrapment phenomenon during the HPDC mold filling process.The pressure of the entrapped air bubbles is solved at each time step. The calculations of the liquid and gas phases are combined together through the pressure transfer.In order to verify the validity and stability of this model,a specially designed water analog experiment was carried out and compared with the numerical simulation results of the liquid-gas coupled model and the single phase flow model,respectively.The comparison shows that the liquid-gas coupled model has better prediction accuracy than the single phase flow model in tracking the entrapped air bubbles.
出处 《金属学报》 SCIE EI CAS CSCD 北大核心 2010年第5期554-560,共7页 Acta Metallurgica Sinica
基金 国家重点基础研究发展计划项目2005CB724105和2006CB605208-2 美国Ford汽车公司资助~~
关键词 压铸 卷气 液-气两相耦合模型 die casting air entrapment liquid-gas coupled model
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