Use of Acoustic Energy in Sand Casting of Aluminium Alloys

Hélder Puga; Joaquim Barbosa; Joana Oliveira

doi:10.4028/www.scientific.net/AMR.690-693.2366

Paper Titles

Parameter Optimization of the Injection Molding Process for a LED Lighting Lens Using Soft Computing
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Pulse Current Auxiliary Tensile and Bulging of Light Metal Alloy
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Rolling Force Prediction System of Cold Rolling Process Based on BP Neural Network
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Use of Acoustic Energy in Sand Casting of Aluminium Alloys
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Study on Conventional Domed Bursting Disc Material and Burst Pressure Test
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Numerical Simulation of Stress-Strain of AZ31 Mg Alloy Profile during Warm Tension-Rotation Bending Process
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Small Module Involute Spline Processing with Position Requirements
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Research on Key Processing Technology of Nuclear Power Tapered Cylinder Forging
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 690-693Use of Acoustic Energy in Sand Casting of...

Use of Acoustic Energy in Sand Casting of Aluminium Alloys

Abstract:

During the last years, some researchers have focused the development of ultrasonic microstructure refinement /modification techniques of die-casting aluminium alloys, to improve their properties. The developed techniques are highly efficient when applied to the die-casting process, but their capability with sand and ceramic moulding are unknown. Sand/ceramic aluminium castings are prone to coarse microstructure, porosities and inclusions due to low cooling rates and turbulent gravity pouring, and suitable processing techniques are required to eliminate those drawbacks. This article reports some results of a research work aiming the development of a reliable, low-cost and environmentally friend casting process, for geometrically complex and massive high strength sand/ceramic aluminium castings, to eliminate traditional soundness related defects and simultaneously promote the development of refined microstructures. The article presents the effect of applying ultrasound to AlSi₉Cu₃ alloy during solidification on a sand mould on the resultant microstructure. Results include microstructure characterization and its relationship with thermal analysis data collected from the center of the cast samples during cooling.

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Periodical:

Advanced Materials Research (Volumes 690-693)

Pages:

2366-2370

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.690-693.2366

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Online since:

May 2013

Authors:

Hélder Puga, Joaquim Barbosa, Joana Oliveira

Keywords:

Aluminium Alloy, Casting, Ultrasonic

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References

[1] X. Day, X. Yang, J. Campbell, J. Wood: Mater. Sci. Eng. A 354 (2003), pp.315-325

Google Scholar

[2] K.G. Basavakumar, P.G. Mukunda, M. Chakraborty: Mater. Character. 59 (2008), pp.283-289

Google Scholar

[3] H.R. Ammar, A.M. Samuel, F.H. Samuel: Mater. Sci. Eng. A 473 (2008), pp.65-75

Google Scholar

[4] Q.G. Wang, D. Apelian, D.A. Lados: J. Light Met. (2001), pp.73-84

Google Scholar

[5] G.K. Sigworth, T.A. Kuhn: AFS Tran. 67 (2) (2007), pp.1-12

Google Scholar

[6] J.A. Spittle: Int. J. Cast. Metal. Res. 19 (2006), pp.210-222

Google Scholar

[7] J.A. García-Hinojosa, C.R. González, G.M. González, Y. Houbaert: J Mater Process Tech 143-144 (2003), pp.306-310

Google Scholar

[8] S.M. Miresmaeili, J. Campbell, S.G. Shabestari, S.M.A. Boutorabi: Metall. Mater. Tran. A 36A (2005), pp.2342-2349

Google Scholar

[9] S.D. Mcdonald, A.K. Dahle, J.A. Taylor, D.H. StJohn: Metall. Mater. Tran. B 35B (2004), pp.1097-1106

Google Scholar

[10] H. Puga, J. Barbosa, D. Soares, F. Silva, S. Ribeiro: J. Mater. Process. Tech. 209 (2009) 5195-5203

Google Scholar

[11] G.I. Eskin in: Ultrasonic Treatment of Light Alloy Melts, edited by Gordon and Breach Science Publishers, Amsterdam (1998).

Google Scholar

[12] W. Khalifa, Y. Tsunekawa, M. Okumiya: Int. J. Cast. Metal. Res.21 (2008), pp.129-134.

Google Scholar

[13] H. Puga, J. Barbosa, S. Costa, S. Ribeiro, A.M.P. Pinto, M. Prokic: Mater. Sci. Eng. A 560 (2013), pp.589-595

Google Scholar

[14] E. Tillova, M. Panuskova: Metalurgija 47 (2008), pp.207-210

Google Scholar