Evaluation of the microstructure, secondary dendrite arm spacing, and mechanical properties of Al-Si alloy castings made in sand and Fe-Cr slag molds

I. Narasimha Murthy; J. Babu Rao

doi:10.1007/s12613-017-1462-x

Volume 24 Issue 7

Jul. 2017

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I. Narasimha Murthy and J. Babu Rao, Evaluation of the microstructure, secondary dendrite arm spacing, and mechanical properties of Al-Si alloy castings made in sand and Fe-Cr slag molds, Int. J. Miner. Metall. Mater., 24(2017), No. 7, pp. 784-793. https://doi.org/10.1007/s12613-017-1462-x

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I. Narasimha Murthy and J. Babu Rao, Evaluation of the microstructure, secondary dendrite arm spacing, and mechanical properties of Al-Si alloy castings made in sand and Fe-Cr slag molds, Int. J. Miner. Metall. Mater., 24(2017), No. 7, pp. 784-793. https://doi.org/10.1007/s12613-017-1462-x

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研究论文

Evaluation of the microstructure, secondary dendrite arm spacing, and mechanical properties of Al-Si alloy castings made in sand and Fe-Cr slag molds

Department of Metallurgical Engineering, Andhra University, Visakhapatnam 530003, India

通讯作者:
J. Babu Rao E-mail: baburaojinugu@yahoo.com

中文摘要

The microstructure and mechanical properties of as-cast A356 (Al-Si) alloy castings were investigated. A356 alloy was cast into three different molds composed of sand, ferrochrome (Fe-Cr) slag, and a mixture of sand and Fe-Cr. A sodium silicate-CO₂ process was used to make the necessary molds. Cylindrical-shaped castings were prepared. Cast products with no porosity and a good surface finish were achieved in all of the molds. These castings were evaluated for their metallography, secondary dendrite arm spacing (SDAS), and mechanical properties, including hardness, compression, tensile, and impact properties. Furthermore, the tensile and impact samples were analyzed by fractography. The results show that faster heat transfer in the Fe-Cr slag molds than in either the silica sand or mixed molds led to lower SDAS values with a refined microstructure in the products cast in Fe-Cr slag molds. Consistent and enhanced mechanical properties were observed in the slag mold products than in the castings obtained from either sand or mixed molds. The fracture surface of the slag mold castings shows a dimple fracture morphology with a transgranular fracture nature. However, the fracture surfaces of the sand mold castings display brittle fracture. In conclusion, products cast in Fe-Cr slag molds exhibit an improved surface finish and enhanced mechanical properties compared to those of products cast in sand and mixed molds.

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Research Article

Evaluation of the microstructure, secondary dendrite arm spacing, and mechanical properties of Al-Si alloy castings made in sand and Fe-Cr slag molds

I. Narasimha Murthy and
J. Babu Rao

+ Author Affiliations

Abstract

Abstract

The microstructure and mechanical properties of as-cast A356 (Al-Si) alloy castings were investigated. A356 alloy was cast into three different molds composed of sand, ferrochrome (Fe-Cr) slag, and a mixture of sand and Fe-Cr. A sodium silicate-CO₂ process was used to make the necessary molds. Cylindrical-shaped castings were prepared. Cast products with no porosity and a good surface finish were achieved in all of the molds. These castings were evaluated for their metallography, secondary dendrite arm spacing (SDAS), and mechanical properties, including hardness, compression, tensile, and impact properties. Furthermore, the tensile and impact samples were analyzed by fractography. The results show that faster heat transfer in the Fe-Cr slag molds than in either the silica sand or mixed molds led to lower SDAS values with a refined microstructure in the products cast in Fe-Cr slag molds. Consistent and enhanced mechanical properties were observed in the slag mold products than in the castings obtained from either sand or mixed molds. The fracture surface of the slag mold castings shows a dimple fracture morphology with a transgranular fracture nature. However, the fracture surfaces of the sand mold castings display brittle fracture. In conclusion, products cast in Fe-Cr slag molds exhibit an improved surface finish and enhanced mechanical properties compared to those of products cast in sand and mixed molds.
- silica sand;
- ferrochrome slag;
- alloy castings;
- secondary dendrite arm spacing;
- mechanical properties

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References

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[11]	F. Grosselle, G. Timelli, F. Bonollo, and R. Molina, Correlation between microstructure and mechanical properties of Al-Si diecast engine blocks, Metall. Sci. Technol., 27(2009), No. 2, p. 2.
[12]	Q.G. Wang, Microstructural effects on the tensile and fracture behavior of aluminum casting alloys A356/357, Metall. Mater. Trans. A, 34(2003), No. 12, p. 2887.
[13]	W.M. Jiang, Z.T. Fan, and D.J. Liu, Microstructure, tensile properties and fractography of A356 alloy under as-cast and T6 obtained with expendable pattern shell casting process, Trans. Nonferrous Met. Soc. China, 22(2012), Suppl. 1, p. s7.
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Evaluation of the microstructure, secondary dendrite arm spacing, and mechanical properties of Al-Si alloy castings made in sand and Fe-Cr slag molds

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Evaluation of the microstructure, secondary dendrite arm spacing, and mechanical properties of Al-Si alloy castings made in sand and Fe-Cr slag molds

Abstract

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