摘要
在直径为650 mm的铝合金热顶半连续铸造过程中施加双源超声振动系统,研究3种超声辐射杆浸入深度对铸锭宏观凝固组织的影响.基于铝合金铸锭凝固组织形貌的检测结果以及ANSYS等有限元软件对铸造过程中声场的仿真结果,深入探讨了超声辐射杆在不同的施振深度下对铝合金铸锭凝固组织细化机制的影响.结果表明:随着超声辐射杆施振深度的增加,铸锭截面组织整体进一步细化,晶粒形状由发达的枝晶变为等轴枝晶;由于超声辐射杆端面以及柱面存在几个固定位置处振动波峰,在铝熔体中不同的超声施振深度下存在不同的超声空化范围,进而导致凝固组织的细化机制也不同.
With the development of the aerospace industry and the need for industrialized production,the casting processes of large diameter aluminum alloy ingot have come into focus in the industry. Among them,ultrasonic-assisted casting technology is widely used. Ultrasonic-assisted casting technology has the advantages of improving solute segregation of ingot and refining solidification organization. Other advantages have been widely reported. At present,most of the aluminum ingots used in the non-hot top ultrasonic casting process with very shallow liquid cavities,while the casting process does not involve the issue of ultrasonic vibration depth. With the use of a hot-top mold for ultrasound in the casting and casting process of large diameter ingot,the liquid level of aluminum melt is very high. The ultrasonic vibration depth will affect the cavitation range and finally affect the fine grain effect of the ingot. In the present study,a double source ultrasonic vibration system was applied in the process of semi-continuous casting of aluminum alloy with a diameter of 650 mm,and the influence of ultrasonic immersion depth on the macroscopic solidification structure of ingot was studied. Based on the test results of the solidified microstructure of aluminum alloy ingot and the simulation results of the sound field of the finite element software such as ANSYS,the mechanism of the microstructure refinement of the aluminum alloy ingot under different vibration depths was discussed at length. Study results show that,with increasing vibrational depth of the supersonic radiation rod,the whole cross section of the ingot is further refined,and grain shape changs from developed dendrites to equiaxed dendrites. Because of the endfaces of the ultrasonic radiation rod,there is a vibrational peak at the fixed position,which leads to different ultrasonic cavities under different ultrasonic vibrational depths in the aluminum melt. This leads to different refinement mechanisms of the solidified structure.
作者
王莹
李晓谦
李瑞卿
田阳
WANG Ying;LI Xiao-qian;LI Rui-qing;TIAN Yang(College of Mechanical and Electrical Engineering,Central South University,Changsha 410083,China;State Key Laboratory of High Performance Complex Manufacturing,Changsha 410083,China;Light Alloy Research Institute,Central South University,Changsha 410083,China)
出处
《工程科学学报》
EI
CSCD
北大核心
2019年第1期96-103,共8页
Chinese Journal of Engineering
基金
国家自然科学基金资助项目(51475480
51575539
51605496
U1637601)
中南大学研究生自主探索创新资助项目(1053320171530)
关键词
铝合金
热顶铸造
有限元法
振动波峰
超声空化
细化机制
aluminum alloy
hot roof casting
finite element method
vibration peaks
ultrasonic cavitation
refinement mechanism
