Cellular Automation Finite Element Modeling of the Evolution of the As-Cast Microstructure of an Ultrasonically Treated AI-2Cu Alloy

机译：超声处理AI-2CU合金铸造微观结构的进化蜂窝自动化有限元建模

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Ultrasonic vibration characterised by high-intensity and low-amplitude is one of the physical (or mechanical) means that can effectively refine the as-cast grain structure without using inoculant particles [1-8]. Computational models that quantitatively describe hydrody-namic fields induced by ultrasonics and the resultant microstructure evolution are an invaluable way to understand and optimise ultrasonic treatment (UST) processes, and the development of these models is crucial in taking advantage of UST as part of a casting process [9-12]. The current work investigates the effect of acoustic streaming on the evolution of microstructure of an Al-2Cu alloy during the application of UST numerically. A computation model based on CAFE (Cellular Automation Finite Element) coupling fluid flow, heat transfer, nucleation and grain growth was developed and validated by comparing the results of numerical simulations against physical experiments.

机译：通过高强度和低幅度特征的超声波振动是物理（或机械）装置之一，其可以有效地优化由于植入颗粒的铸造晶粒结构[1-8]。定量描述超声波诱导的水上纳米场的计算模型和所得的微观结构演进是了解和优化超声波处理（UST）过程的宝贵方式，并且这些模型的开发对于利用UST作为铸造的一部分至关重要过程[9-12]。目前的工作研究了在数值上施加UST期间Al-2Cu合金微观结构演变的影响。通过比较数值模拟对物理实验的结果，开发并验证了基于Cafe（蜂窝自动化有限元）耦合流体流动，传热，成核和晶粒生长的计算模型。

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《Annual Meeting amp;amp;amp; Exhibition of The Minerals, Metals amp;amp;amp; Materials Society》|2019年|xxxiv 1665p|共6页
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G. Wang; M. Dargusch; D. StJohn;
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中图分类 TF82-532;
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Ultrasonic treatment; Aluminium alloys; Casting simulation; Solidification; Microstructure development;

机译：超声波处理;铝合金;铸造仿真;凝固;微观结构;

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2. A hybrid finite-element and cellular-automaton framework for modeling 3D microstructure of Ti-6Al-4V alloy during solid-solid phase transformation in additive manufacturing [J] . Chen Shaohua, Xu Yaopengxiao, Jiao Yang Modelling and simulation in materials science and engineering . 2018,第4期

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3. Modeling the elastoplastic behaviors of alpha Ti-alloys microstructure using Cellular Automaton and finite element methods [J] . Pourian Meysam Hamid, Pilvin Philippe, Bridier Florent, Computational Materials Science . 2015,第Null期

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4. 3D finite element simulation of microstructure evolution in blade forging of Ti-6A1-4V alloy based on the internal state variable models [J] . Jiao Luo, Bin Wu, Miao-quan Li International Journal of Minerals,Metallurgy and Materials . 2012,第2期

机译：基于内部状态变量模型的Ti-6A1-4V合金叶片锻造组织演变的3D有限元模拟
5. Cellular Automation Finite Element Modeling of the Evolution of the As-Cast Microstructure of an Ultrasonically Treated AI-2Cu Alloy [C] . G. Wang, M. Dargusch, D. StJohn Annual Meeting amp;amp;amp; Exhibition of The Minerals, Metals amp;amp;amp; Materials Society . 2019

机译：超声处理AI-2CU合金铸造微观结构的进化蜂窝自动化有限元建模
6. A model for evolution of as-cast microstructure in ductile iron alloys [D] . Vijayaraghavan, Ravi. 1996

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7. Microstructure and Mechanical Properties of High Vacuum Die-Cast AlSiMgMn Alloys at as-Cast and T6-Treated Conditions [O] . Fei Liu, Haidong Zhao, Runsheng Yang, 2019

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8. Modelling microstructure evolution during equal channel angular pressing of magnesium alloys using cellular automata finite element method [O] . Gzyl Michal Zbigniew, Rosochowski Andrzej, Milenin Andrzej, 2013

机译：用元胞自动机有限元法模拟镁合金等通道角挤压过程中的组织演变。

Cellular Automation Finite Element Modeling of the Evolution of the As-Cast Microstructure of an Ultrasonically Treated AI-2Cu Alloy

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