Solid freeform fabrication of aluminum alloy components: Numerical simulations

G Vijh; A. Gokhale; S. Mishra

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Solid freeform fabrication of aluminum alloy components: Numerical simulations

机译：铝合金零件的固态自由形式制造：数值模拟

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A heat transfer model has been developed to simulate the evolution of temperature during semi-solid metal (SSM) solid freeform fabrication (SFF) process. The governing equations were solved numerically using finite difference method. Deposition of simple cubic components of A356 (Al-7 percent Si-0.45 percent Mg) aluminum alloy have been simulated. The effect of process parameters such as deposition pattern, deposition velocity, slurry cross-section and slurry temperature on the transient temperature distribution in these components have been studied. Out of the three deposition patterns studied, i.e. rotating, alternating and unidirectional, the alternating pattern enabled depositing larger interface-free components. Increasing the slurry flow rate resulted in the deposition of larger interface-free components.

机译：已经开发出一种传热模型来模拟半固态金属（SSM）固态自由形式制造（SFF）过程中的温度变化。用有限差分法对控制方程进行数值求解。模拟了A356（Al-7％Si-0.45％Mg）铝合金的简单立方成分的沉积。研究了沉积参数，沉积速度，浆液横截面和浆液温度等工艺参数对这些组件中瞬时温度分布的影响。在研究的三种沉积模式中，即旋转，交替和单向，交替模式可以沉积更大的无界面组分。浆料流速的增加导致较大的无界面组分的沉积。

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《Transactions of the Indian Institute of Metals》 |2009年第5期|共4页
作者
G Vijh; A. Gokhale; S. Mishra;
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正文语种 eng
中图分类冶金工业;
关键词
solid freeform fabrication; rapid prototyping; heat transfer; A356; semi-solid metal;

机译：固体自由成型制造;快速成型;传热;A356;半固态金属;

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2. 半固态铝合金汽车动力零件的疲劳分析模型开发 [J] . Kh.A.RAGAB, A.BOUAICHA, M.BOUAZARA 中国有色金属学报：英文版 . 2018,第06)期
3. Solid freeform fabrication of aluminum alloy components: Numerical simulations [J] . G Vijh, A. Gokhale, S. Mishra Transactions of the Indian Institute of Metals . 2009,第4a5期

机译：铝合金零件的固态自由形式制造：数值模拟
4. Solid freeform fabrication by extrusion and deposition of semi-solid alloys [J] . Finke S., Feenstra FK. Journal of Materials Science . 2002,第15期

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Solid freeform fabrication of aluminum alloy components: Numerical simulations

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