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A Comparative Investigation on the High Temperature Fatigue of Three Cast Aluminum Alloys
Technical Paper
2004-01-1029
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
The high temperature fatigue behaviors of three cast aluminum alloys used for cylinder head fabrication - 319, A356 and AS7GU - are compared under isothermal fatigue at room temperature and elevated temperatures. The thermo-mechanical fatigue behavior for both out-of-phase and in-phase loading conditions (100-300°C) has also been investigated. It has been observed that all three of these alloys present a very similar behavior under both isothermal and thermo-mechanical low-cycle fatigue. Under high-cycle fatigue, however, the alloys A356 and AS7GU exhibit superior performance.
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Authors
Citation
Engler-Pinto, C., Lasecki, J., Boileau, J., and Allison, J., "A Comparative Investigation on the High Temperature Fatigue of Three Cast Aluminum Alloys," SAE Technical Paper 2004-01-1029, 2004, https://doi.org/10.4271/2004-01-1029.Also In
References
- Smith T.J. Maier H.J. Sehitoglu H. Fleury E. Allison J.E. Metall. & Mater. Trans. A 30 1999 133 146
- Fuchs H. Wappelhorst M. Light metal materials for engine blocks and cylinder heads subjected to heavy stress loads MTZ Worldwide 64 Oct. 2003 36 39
- Shercliff H.R. Ashby M.F. A process model for age hardening of aluminum alloys-I Model, Acta Metall. Mater. 38 10 1990 1789 1802
- Gundlach R.B. Ross B. Hetke A. Valtierra S. Mojica J.F. AFS Transactions 102 1994 205 223
- Eady J.A. Smith D.M. SAE Transactions 93 1984 747 755
- Andrews J.B. Seneviratne M.V.C. AFS Transactions 92 1984 209 216
- Videm M. Ryum N. Mater. Sci. and Eng. A219 1996 1 10
- Videm M. Ryum N. Cyclic deformation and fracture of pure aluminum polycrystals Mater. Sci. and Eng. A219 1996 11 22
- Ting J.C. Lawrence V. Jr. Modeling the long-life fatigue behavior of a cast aluminum alloy Fatigue Fract. Engng Mater. Struct. 16 6 1993 631 647
- Dabayeh A.A. Topper T.H. Fatigue Fract. Engng. Mater. Struct. 23 2000 993 1006
- Caton M.J. Jones J.W. Boileau J.M. Allison J.E. Metall. & Mater. Trans. A 30 1999 3055 3068
- Bignonnet A. Charkaluk E. Thermomechanical fatigue in the automotive industry, Temperature-Fatigue interaction ESIS publication 29 2003 319 330
- Engler-Pinto C.C. Jr. Sehitoglu H. maier H.J. Foglesong T.J. Thermo-mechanical fatigue behavior of cast 319 aluminum alloys, Temperature-Fatigue interaction ESIS publication 29 2003 3 14
- Feikus F.J. Optimization of Al-Si cast alloys for cylinder head applications AFS Transaction 106 1998 225 231
- Koch F. Maassen F. Deuster U. Loeprecht M. Marckwardt H. Low cycle fatigue of aluminum cylinder heads - calculation and measurement of strain under fired operation SAE paper 199-01-0645 1999
- Boileau J.M. Cloutier C.A. Godlewski L.A. Reeber-Symansksi P.A. Wolverton C. Allison J.E. The dimensional stability of cast 319 aluminum SAE paper 2003-01-0822 2003
- Boileau J.M. Weber S.J. Salzman R.H. Allison J.E. The effect of porosity size on the tensile properties of a cast 319-T7 aluminum alloy AFS transactions 109 2001 419 432
- Boileau J.M. Wayne State University Detroit, MI 2000
- Godlewski L.A. Zindel J.W. Private Communication, Ford Research Laboratory 2003
- Boileau J.M. Allison J.E. The effect of solidification time and heat treatment on the fatigue properties of a cast 319 aluminum alloy Metall. and Mater. Trans. A 34A 2003 1807 1820
- Su X. Zubeck M. Lasecki J.V. Engler-Pinto C.C. Jr. Tang C. Sehitoglu H. Allison J.E. Thermal fatigue analysis of cast cylinder heads SAE paper 2002-01-0657 2002