2014
DOI: 10.2355/isijinternational.54.384
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Cellular Automaton Modeling of Microporosity Formation during Solidification of Aluminum Alloys

Abstract: A two-dimensional (2D) cellular automaton (CA)-finite difference method (FDM) model is proposed to simulate the dendrite growth and microporosity formation during solidification of aluminum alloys. The model involves a three-phase system of liquid, gas, and solid. The growth of both dendrite and gas pore is simulated using a CA approach. The diffusion of solute and hydrogen is calculated using the FDM. The model is applied to simulate the formation and interactions of dendrites and micropores in an Al-7wt.%Si … Show more

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Cited by 30 publications
(12 citation statements)
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“…In order to establish artificial casting defects numerically, the algorithm of cellular automata (CA) is utilized. As already proposed in recent publications, the application of CA leads to satisfying results concerning the modelling of porosity formation and pore growth [69][70][71]. The presented results within this paper demonstrate the basic applicability of the developed tool, further details are provided in a preceding scientific work [72].…”
Section: Assessment Of Artificially Generated Defectssupporting
confidence: 72%
“…In order to establish artificial casting defects numerically, the algorithm of cellular automata (CA) is utilized. As already proposed in recent publications, the application of CA leads to satisfying results concerning the modelling of porosity formation and pore growth [69][70][71]. The presented results within this paper demonstrate the basic applicability of the developed tool, further details are provided in a preceding scientific work [72].…”
Section: Assessment Of Artificially Generated Defectssupporting
confidence: 72%
“…Thus, pores are not able to grow immediately after nucleation as the local hydrogen concentration is lower than the local hydrogen solubility. The incubation time which appears in pore nucleation and in pore growth has been previously reported 27 . As solidification proceeds, the local hydrogen concentration in the melt continues increasing.…”
Section: Resultsmentioning
confidence: 94%
“…Secondly, gaseous pore nucleation only occurs when the gas dissolves in the liquid () and exceeds the critical supersaturation 27 . The hydrogen saturation in melt Al-Si-Mg can be described based on Sievert’s law as: (mL/100 g Al) 3,18 , where is the internal pressure of a gas pore, P 0 is the standard atmospheric pressure, γ is the surface tension of the G/L interface, r p is the pore radius, and and are the solute concentrations of Si and Mg in melt Al, respectively.…”
Section: Methodsmentioning
confidence: 99%
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