通过测试与分析不同结晶压力下真空差压铸造ZL114A铝合金的二次枝晶间距,研究结晶压力对真空差压铸造铝合金二次枝晶间距的影响;并建立真空差压铸造ZL114A铝合金二次枝晶间距与结晶压力和壁厚的关系。结果表明,结晶压力对真空差压铸造铝合金二次枝晶间距影响显著,对于相同壁厚的试样,随着结晶压力的增大,铝合金二次枝晶间距减小;在同一结晶压力下,随着壁厚的减小,铝合金二次枝晶间距减小;结晶压力小于350 kPa时,壁厚对二次枝晶间距影响较大;结晶压力大于350 kPa时,结晶压力对二次枝晶间距影响较大。
The effect of crystallization pressure on the secondary dendrite arm spacing of vacuum counter-pressure casting ZL114A aluminum alloy was studied through testing and analyzing the secondary dendrite arm spacing (SDAS) subjected to different crystallization pressures. Meanwhile, the relationships among the secondary dendrite arm spacing of vacuum counter-pressure casting ZL114A aluminum alloy and crystallization pressure and wall thickness were established. The results indicate that the effect of crystallization pressure on the secondary dendrite arm spacing of vacuum counter-pressure casting aluminum alloy is obvious. For the samples with the same wall thickness, the secondary dendrite arm spacing of aluminum alloy decreases with the increase of crystallization pressure. Under the same crystallization pressure, the secondary dendrite arm spacing of aluminum alloy decreases with the decrease of wall thickness. When the crystallization pressure is less than 350 kPa, the effect of wall thickness on the secondary dendrite arm spacing is obvious, while when the crystallization pressure is more than 350 kPa, the effect of crystallization pressure on secondary dendrite arm spacing is obvious.
参考文献
[1] | Griffiths, WD;Kawai, K .The effect of increased pressure on interfacial heat transfer in the aluminium gravity die casting process[J].Journal of Materials Science,2010(9):2330-2339. |
[2] | 蒋文明,樊自田,刘德均.真空低压消失模壳型铸造和消失模铸造铝合金组织和性能对比[J].中国有色金属学报,2013(01):22-28. |
[3] | OTARAWANNA S;GOURLA C M;LAUKLI H I;DAHLE A K .Microstructure formation in AlSi4MgMn and AlMg5Si2Mn high-pressure die castings[J].Metallurgical and Materials Transactions A:Physical Metallurgy and Materials Science,2009,40:1645-1659. |
[4] | CBATSHJEB;张锦升;罗守靖.金属和合金在压力下结晶[M].哈尔滨:哈尔滨工业大学出版社,1987 |
[5] | MOMCHILOV E .Influence of some technological parameters of counter pressure casting on the structural homogeneity and mechanical characteristics of aluminum alloy castings[J].Journal of Materials Science and Technology,1994,2(04):3-12. |
[6] | 薛寒松,李华基,王勇勤.薄壁件差压铸造的充型特点及影响因素[J].重庆大学学报(自然科学版),2002(10):20-22. |
[7] | Counter-Pressure Casting System Eases Aluminum pouring for High Integrity Components[J].Modern Casting,2004(1):56-0. |
[8] | AKAD A T .Counter-pressure casting:The processes which occur during casting and crystallization[J].Foundry Trade Journal,1989,18(10):744-750. |
[9] | 董秀琦;王冬.低压及差压铸造理论与实践[M].北京:机械工业出版社,2003 |
[10] | 严青松,余欢,魏伯康,徐志峰,蔡长春.真空差压铸造工艺的凝固补缩特性与模型[J].中国有色金属学报,2008(06):1051-1057. |
[11] | 严青松 .智能控制的薄壁铝合金铸件真空差压铸造工艺与理论[D].华中科技大学,2006. |
[12] | QingSong Yan;Huan Yu;ZhiFeng Xu;BoWen Xiong;ChangChun Cai .Effect of holding pressure on the microstructure of vacuum counter-pressurecasting aluminum alloy[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,2010(2):352-357. |
[13] | 董选普,黄乃瑜,樊自田.真空压差铸造法工艺参数的研究[J].热加工工艺,2003(05):15-17. |
[14] | YAN Qing-song,CAI Qi-zhou,WEI Bo-kang,Yu Huan,Yu Zi-rong.Simulation of fuzzy control systems for nonferrous alloy vacuum counter-pressure casting[J].中国有色金属学会会刊(英文版),2005(04):873-877. |
[15] | KOVACHEVA R;BACHVAROV G;DAFINOVA R .Influence of the counter pressure casting conditions on the microstructural characteristics of AlSi7Mg castings[J].Journal of Materials Science and Technology,1996,12(01):42-56. |
[16] | KIRKWOOD D H.Three-dimensional growth morphologies in diffusion-controlled channel growth[J].Physical Review E,1997(06):7789-7792. |
[17] | KUBO K;PEHLKE R .Mathematical modeling of porosity formation in solidification[J].Metallurgical Transactions B,1985,16:359-363. |
[18] | LEE Y W .Modeling of feeding behavior of solidifying Al-7Si-0.3Mg alloy plate casting[J].Metallurgical Transactions B,1990,21:715-722. |
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