Journal Article10.1007/S40962-020-00544-W
Ablation Casting: Solidification Characteristics, Microstructure Formation, and Mechanical Properties
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TL;DR: Ablation casting is an emerging sand casting technology that achieves high cooling rates in a casting during its solidification, especially its eutectic solidification of the metal, resulting in an extremely fine eUTectic microstructure, reduced levels of defect, and enhanced mechanical properties of the casting as discussed by the authors.
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Abstract: Ablation casting is an emerging sand casting technology that achieves high cooling rates in a casting during its solidification, especially its eutectic solidification of the metal, resulting in an extremely fine eutectic microstructure, reduced levels of defect, and enhanced mechanical properties of the casting. The technology is creating extensive interest in the industry for its capability in producing castings with high mechanical properties and internal integrity. However, scientific research lags behind the industrial applications of this new technology. There is a lack of scientific understanding on the solidification features of the castings made using ablation casting. Experimental data on the microstructural length scales seem inconsistent. This article aims at interpreting the experimental data available in the literature by considering the solidification characteristics of ablation casting. The paper also discusses certain research needs to further exploring the potential of the ablation casting process.
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Citations
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TL;DR: In this article , a systematic review of available lightweight materials to produce next-generation automobiles is provided, including light alloys, high-strength steels, composites, and advanced materials in ongoing research.
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Direct Cill Casting of Aluminum Alloys : Modeling and Experiments on Industrial Scale Ingots
C. J. Vreeman
- 01 Jan 2002
TL;DR: In this article, a continuum mixture model of the direct chill casting process is compared to experimental results from industrial scale aluminum billets, which includes the transport of free-floating solid particles, can simulate the effect of a grain refiner on macrose gregation and fluid flow.
65
Modeling Ablation Casting
Dashan Sui,Qingyou Han +1 more
TL;DR: In this paper, an initial attempt in modeling ablation casting process is described, where material properties and boundary conditions are defined for calculating cooling curves and microstructural length scales in A356 alloy castings made using sand casting and ablation cast processes.
9
Effect of high cooling rate on the solidification microstructure of Al-Cu/TiB2 alloy fabricated by Freeze-Ablation casting
TL;DR: In this paper , an innovative process known as freeze-ablation was introduced, which could greatly increase the cooling rate of the melt by pouring the Al-Cu-6wt%TiB2 alloy into a frozen sand mold, and the cooling liquid could directly contact the casting to significantly increase cooling rate.
6
References
Theory of eutectic growth under rapid solidification conditions
TL;DR: In this paper, the Jackson-Hunt model of eutectic growth at small undercoolings is extended to large undercooling values which are commonly encountered under rapid solidification conditions.
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An Analysis of the Relationship between Grain Size, Solute Content, and the Potency and Number Density of Nucleant Particles
Mark Alan Easton,David H. StJohn +1 more
TL;DR: In this article, a study was conducted on aluminum alloys where additions of TiB2 and Ti were made to eight wrought aluminum alloy alloys covering a range of alloying elements and compositions, and it was found from analysis of the data that the relationship between grain size, solute content, and number density of nucleant particles needed to be understood.
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Fatigue behavior of A356/357 aluminum cast alloys. Part II – Effect of microstructural constituents
TL;DR: In this paper, a quantitative study of the interactions between microstructural features such as secondary dendrite arm spacing (SDAS), eutectic structure, matrix strength, and fatigue behavior of two Al-7% Si-Mg casting alloys with magnesium contents of 0.4% and 0.7%, respectively, has been conducted.
281
Review on Modeling and Simulation of Continuous Casting
TL;DR: A review of state-of-the-art models for continuous casting can be found in this paper, where the authors focus on practical applications to the formation of defects in continuous casting.
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Degassing of molten aluminum A356 alloy using ultrasonic vibration
TL;DR: In this article, an experimental setup has been built for the degassing of aluminum using ultrasonic vibration at a frequency of 20 kHz and vibration intensities up to 1500 W. The efficiency of degassing is evaluated by a density measurement for reduced pressure samples.
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