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International Journal of Material Forming
Erschienen in: International Journal of Material Forming 2/2013

01.06.2013 | Original Research

Microstructure characterization and tensile properties of direct squeeze cast and gravity die cast 2017A wrought Al alloy

verfasst von: Slim Souissi, Mohamed Ben Amar, Chedly Bradai

Erschienen in: International Journal of Material Forming | Ausgabe 2/2013

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Abstract

Squeeze casting is a pressurized solidification process wherein finished components can be produced in a single process from molten metal to solid utilizing re-useable die tools. This one activates different physical processes which have metallurgical repercussions on the cast material structure. Desirable features of both casting and forging are combined in this hybrid method. 2017A aluminium alloy, conventionally used for wrought products, has been successfully cast using direct squeeze casting. Squeeze casting with an applied pressure removes the defects observed in gravity die cast samples. Tensile properties and microstructures are investigated. The results show that the finer microstructure was achieved through the squeeze casting. Furthermore, higher pressures improved the fracture properties and decreased the percentage of porosity of the cast alloy. The ultimate tensile strength, the yield strength and the elongation of the squeezed cast samples improved when the squeeze pressure increased.
Vorheriger Artikel Residual stresses due to gas arc welding of aluminum alloy joints by numerical simulations
Nächster Artikel Flatness defects after bridle rolls: a numerical analysis of leveling

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Literatur
1.
Guo H, Yang X (2007) Preparation of semi-solid slurry containing fine and globular particles for wrought aluminium alloy 2024. Trans Nonferrous Met Soc China 17:799–804CrossRef
2.
Kang CG, Seo PK, Jeon YP (2005) Thixo diecasting process for fabrication of thin-type componentwith wrought aluminium alloys and its formability limitation. J Mater Process Technol 160:59–69CrossRef
3.
El-Magd E, Abouridouane M (2006) Characterization, modelling and simulation of deformation and fracture behaviour of the light-weight wrought alloys under high strain rate loading. Int J Impact Eng 32:741–758CrossRef
4.
Zander J, Sandstrom R (2009) Modelling technological properties of commercial wrought aluminium alloys. Mater Des 30:3752–3759CrossRef
5.
Guo H, Yang X, Wang J, Bin Hu, Guang-lei Z (2010) Effects of rheoforming on microstructures and mechanical properties of 7075 wrought aluminium alloy. Trans Nonferrous Met Soc China 20:355–360CrossRef
6.
Sukumaran K, Ravikumar KK, Pillai SGK, Rajan TPD, Ravi M, Pillai RM, Pai BC (2008) Studies on squeeze casting of Al 2124 alloy and 2124-10% SiCp metal matrix composite. Mater Sci Eng, A 490:235–241CrossRef
7.
Avalle M, Belingardi G, Cavatorta MP, Doglione R (2002) Casting defects and fatigue strength of a die cast aluminium alloy: a comparison between standard specimens and production components. Int J Fatigue 24:1–9CrossRef
8.
Nadella R, Eskin DG, Du Q, Katgerman L (2008) Macrosegregation in direct-chill casting of aluminium alloys. Prog Mater Sci 53:421–480CrossRef
9.
Flemings MC, Solidification Processing (1974) McGraw Hill
10.
Eskin DG, Suyitno KL (2004) Mechanical properties in the semi-solid state and hot tearing of aluminium alloys. Prog Mater Sci 49:629–671CrossRef
11.
Zhong Y, Su G, Yang K (2003) Microsegregation and improved methods of squeeze casting 2024 Aluminium alloy. J Mater Sci Technol 19:413–416
12.
Aweda JO, Adeyemi MB (2009) Determination of temperature distribution in squeeze cast aluminium using the semi-empirical equations’ method. J Mater Process Technol 209:5751–5759CrossRef
13.
Aweda JO, Adeyemi MB (2009) Experimental determination of heat transfer coefficients during squeeze casting of aluminium. J Mater Process Technol 209:1477–1483CrossRef
14.
Masoumi M, Hu H (2011) Influence of applied pressure on microstructure and tensile properties of squeeze cast magnesium Mg–Al–Ca alloy. Mater Sci Eng, A 528:3589–3593CrossRef
15.
Hajjari E, Divandari M (2008) An investigation on the microstructure and tensile properties of direct squeeze cast and gravity die cast 2024 wrought Al alloy. Mater Des 29:1685–1689CrossRef
16.
Kurz W, Fisher DJ (1984) Fundamentals of solidification. Trans Tech Publications, Switzerland
17.
De Brito CC, Magalhães FD, Costa ALM, Siqueira CA (2010) Microstructural analysis and tensile properties of squeeze cast Al-7%Mg alloy. Mater Sci Forum 643:119–123CrossRef
18.
Murali S, Yong MS (2010) Liquid forging of thin Al–Si structures. J Mater Process Technol 210:1276–1281CrossRef
19.
Maleki A, Niroumand B, Shafyei A (2006) Effects of squeeze casting parameters on density, macrostructure and hardness of LM13 alloy. Mater Sci Eng, A 428:135–140CrossRef
20.
Abou El-khair MT (2005) Microstructure characterization and tensile properties of squeeze-cast AlSiMg alloys. Mater Lett 59:894–900CrossRef
21.
Maleki A, Shafyei A, Niroumand B (2009) Effects of squeeze casting parameters on the microstructure of LM13 alloy. J Mater Process Technol 209:3790–3797CrossRef
22.
Fan CH, Chen ZH, He WQ, Chen JH, Chen D (2010) Effects of the casting temperature on microstructure and mechanical properties of the squeeze-cast Al-Zn-Mg-Cu alloy. J Alloys Compd 504:42–45CrossRef
23.
Boschetto A, Costanza G, Quadrini F, Tata ME (2007) Cooling rate inference in aluminium alloy squeeze casting. Mater Lett 61:2969–2972CrossRef
24.
Ming Z, Wei-wen Z, Hai-dong Z, Da-tong Z, Yuan-yuan L (2007) Effect of pressure on microstructures and mechanical properties of Al-Cu-based alloy prepared by squeeze casting. Trans Nonferrous Met Soc China 17:496–501CrossRef
25.
MIL-HDBK-5H (1998) Metallic Materials and Elements for Aerospace Vehicle Structures. US Department of Defense: 3–64
26.
Vargel C, Jacques M, Schmidt MP (2004) The most common wrought aluminium alloys. Corros Alum A 4:61–69CrossRef
27.
Metallography and Microstructures (1995) ASM Hand Book, 9th ed, Materials Park, Ohio 9: 334–435
28.
Ghomashchi MR, Vikhrov A (2000) Squeeze casting: an overview. J Mater Process Technol 101:1–9CrossRef
29.
Campbell J (1991) Castings. Butterworth Heinemann: 268–272
30.
Askeland DR, Phule PP (2002) The science and engineering of materials, 4th edn
Metadaten
Titel
Microstructure characterization and tensile properties of direct squeeze cast and gravity die cast 2017A wrought Al alloy
verfasst von
Slim Souissi
Mohamed Ben Amar
Chedly Bradai
Publikationsdatum
01.06.2013
Verlag
Springer-Verlag
Erschienen in
International Journal of Material Forming / Ausgabe 2/2013
Print ISSN: 1960-6206
Elektronische ISSN: 1960-6214
DOI
https://doi.org/10.1007/s12289-011-1082-3

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