The effect of cooling rate and composition on the secondary dendrite arm spacing during solidification. Part I: Al-Cu-Si alloys

V. Ronto; A. Roosz

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The effect of cooling rate and composition on the secondary dendrite arm spacing during solidification. Part I: Al-Cu-Si alloys

机译：冷却速度和成分对凝固过程中二次枝晶臂间距的影响。第一部分：Al-Cu-Si合金

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Al-Cu-Si alloys of six different compositions have been solidified by means of the Differential Thermal Analysis (DTA) method. On the basis of the measurement results it is stated that the secondary dendrite arm spacing (λ{sub}(2,f)) can be determined with suitable accuracy as a function of the composition (C{sub}(0,Cu); C{sub}(0,Si)), using the local solidification time (t{sub}f) or the cooling rate (T{sub}L) by means of the following equations: λ{sub}(2,f)= 34.9 × (C{sub}(0,Cu)){sup}(-0.333) × (C{sub}(0,Si)){sup}(-0.145) × (t{sub}f){sup}(0.208); λ{sub}(2,f)= 77.09 × (C{sub}0,Cu){sup}(-0.1989) × (C{sub}(0,Si)){sup}(-0.078) × (T{sub}L){sup}(-0.252).

机译：六种不同成分的Al-Cu-Si合金已通过差热分析（DTA）方法进行了固化。根据测量结果可以得出，二次枝晶臂间距（λ{sub}（2，f））可以根据组成（C {sub}（0，Cu）; C {sub}（0，Si）），使用局部凝固时间（t {sub} f）或冷却速率（T {sub} L）通过以下等式：λ{sub}（2，f） = 34.9×（C {sub}（0，Cu））{sup}（-0.333）×（C {sub}（0，Si））{sup}（-0.145）×（t {sub} f）{sup }（0.208）; λ{sub}（2，f）= 77.09×（C {sub} 0，Cu）{sup}（-0.1989）×（C {sub}（0，Si））{sup}（-0.078）×（T {sub} L）{sup}（-0.252）。

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《International Journal Cast Metals Research》 |2001年第6期|共6页
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V. Ronto; A. Roosz;
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正文语种 eng
中图分类铸造工艺;
关键词
Secondary dendrite arm spacing; Local solidification time; Cooling rate; DTA method; Concentration dependence;

机译：二次枝晶臂间距;局部凝固时间;冷却速率;DTA法;浓度依赖性;

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1. The effect of cooling rate and composition on the secondary dendrite arm spacing during solidification. Part I: Al-Cu-Si alloys [J] . V. Ronto, A. Roosz International Journal Cast Metals Research . 2001,第6期

机译：冷却速度和成分对凝固过程中二次枝晶臂间距的影响。第一部分：Al-Cu-Si合金
2. Application of secondary dendrite arm spacing—cooling rate equation for cast alloys [J] . G. -F. Salas, M. E. Noguez, J. G. Ramirez, Transactions of the American Foundrymen's Society . 2001,第108期

机译：二次枝晶臂间距—冷却速率方程在铸造合金中的应用
3. Cooling rate dependence of secondary dendrite arm spacing in nickel-based super alloys [J] . Takayuki Mamiya, Yoshihito Ogasawara, Shinji Sato 日本金属学会誌 . 1997,第8期

机译：镍基超级合金中第二枝晶臂间距的冷却速率依赖性
4. Experimental Study of Secondary Dendrite Arm Spacing Vs Cooling Rate in Squeeze Casting of A356 alloys [C] . P.Krishna, K.T.Bilkey, R.D.Pehlke Conference on Modeling of Casting, Welding and Advanced Solidification Processes . 2000

机译：A356合金挤压铸造次级枝晶臂间距Vs冷却速率的实验研究
5. Affect of pressurized solidification on the secondary dendritic arm spacing in lead-tin alloy. [D] . Nibhanupudi, Syam S. 2008

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6. Detachment of secondary dendrite arm in a directionally solidified Sn-Ni peritectic alloy under deceleration growth condition [O] . Peng Peng, Xinzhong Li, Jiangong Li, -1

机译：减速生长条件下定向凝固Sn-Ni包晶合金中二次枝晶臂的分离
7. Effect of composition on secondary dendrite arm spacing of Al-Si-Cu-Mg (Fe/Mn) alloys for a given cooling rate [O] . SivarupanTharmalingam, Caceres Carlos H., Taylor John A. 2011

机译：在给定冷却速率下，成分对Al-Si-Cu-Mg（Fe / Mn）合金的二次枝晶臂间距的影响

The effect of cooling rate and composition on the secondary dendrite arm spacing during solidification. Part I: Al-Cu-Si alloys

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