铝液过热对连铸、连压过程传热影响的数值研究

A. P. Skuratov, A. S. Potapenko, Yuriy V. Gorokhov, N. P. Popiyakova
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引用次数: 1

摘要

本文介绍了具有不同过热温度的AK12实验铝合金从启动到机组达到定热状态的时间间隔内,连续组合铸压过程中温度-时间依赖性的数值研究结果。本文在新设计的卧式旋转结晶器单元复杂传热的三维计算机模型的基础上进行了计算。通过理论研究确定了浇注铝液过热对非稳态换热过程的影响。确定了瞬态热态传热性质对凝固熔体在离倾点不同距离处温度场的影响。结果表明:随着结晶器在过渡过程中的升温,金属控制段温度场的不对称性随着最高温度区域向结晶器接触面移动而增大。研究发现,从冷态启动机组到稳定热状态的过渡过程持续时间取决于浇注熔体的温度。确定过热值的最大限值,高于该值浇注金属,在实施连续铸压结合工艺时,铝熔体在结晶器内不凝固,必须对单元元件进行强制冷却。估计了熔体过热对整个瞬态热过程中沿结晶器截面的温度场分布的影响。确定设计措施,以确保在机组运行期间轴承的合理温度条件。
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Numerical investigation of influence of molten aluminum overheating on heat transfer in continuous combined casting and pressing
The article presents the results of a numerical study of temperature-time dependences in continuous combined casting and pressing of the AK12 experimental aluminum alloy, which has a different overheating temperature, in the time interval from start-up to the moment of the unit reaching the stationary thermal regime. Calculations are carried out on the basis of a three-dimensional computer model of complex heat transfer in the unit of a new design equipped with a horizontal carousel crystallizer. Theoretical studies are conducted to determine the influence of superheating of poured aluminum melt on the processes of unsteady heat transfer. The influence of the nature of heat transfer in the transient thermal regime on the temperature field of the solidifying melt at different distances from the pour point is determined. It is shown that as the crystallizer heats up in the transition process, the asymmetry of the temperature field in the control section of metal increases near the pressing tool with the shift of the maximum temperature region to the crystallizer contac surface. It is found that the transition process duration when starting the unit in a cold state until it reaches a stationary thermal regime depends on the temperature of poured melt. The maximum limit of the overheating value is determined, above which poured metal, when implementing the technology of continuous combined casting and pressing, aluminum melt does not solidify in the crystallizer and forced cooling of unit elements must be arranged. The influence of melt overheating on the pattern of the temperature field along the crystallizer cross section over the entire period of the transient thermal process is estimated. Design measures to ensure rational temperature conditions of bearings during the unit operation are determined.
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