2007
DOI: 10.1007/s11661-006-9064-7
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Modeling the Age-Hardening Behavior of SiC/Al Metal Matrix Composites

Abstract: A model for the age-hardening behavior of SiC/Al metal matrix composites has been developed to describe the variation of the yield strength with aging time. The model incorporates the heterogeneous nucleation and growth of the precipitates along the dislocations to describe the accelerated aging behavior. It has been shown that the size and volume fraction of the SiC particles as well as aging temperature influence the age-hardening behavior. Increasing the aging temperature accelerates the aging process by in… Show more

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Cited by 31 publications
(10 citation statements)
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“…Based on that conclusion, the tensile ductility as a function of the aging time and aging temperature can be calculated, if we can calculate the volume fraction and size of the precipitates as a function of the aging time and temperature. A previous work [29] developed a model for quantifying the aging-hardening behavior of the SiC p /Al metal matrix composites, and the model predictions are in reasonable agreement with the experimental data for both SiC p /Al-Cu-Mg and SiC p /Al-Mg-Si composites. Detailed information about the model can be found in Reference 29.…”
Section: B the Effect Of Artificial Aging Treatment On The Tensile Dsupporting
confidence: 63%
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“…Based on that conclusion, the tensile ductility as a function of the aging time and aging temperature can be calculated, if we can calculate the volume fraction and size of the precipitates as a function of the aging time and temperature. A previous work [29] developed a model for quantifying the aging-hardening behavior of the SiC p /Al metal matrix composites, and the model predictions are in reasonable agreement with the experimental data for both SiC p /Al-Cu-Mg and SiC p /Al-Mg-Si composites. Detailed information about the model can be found in Reference 29.…”
Section: B the Effect Of Artificial Aging Treatment On The Tensile Dsupporting
confidence: 63%
“…[29] Here, both the calculations [29] and experiments have been performed to determine the evolution of both the size and volume fraction of the precipitates. Figure 4 illustrates the model-predicted [29] and experimentally determined data for the size and volume fraction of the precipitates in SiC p /Al-Cu-Mg composites as a function of the aging time and aging temperature. Before aging, all the specimens are subjected to ELF treatment, to eliminate the effect of the formation of the constituents on the evolution of the precipitates.…”
Section: A Effects Of Solution Treatment Quenching and Aging Treatmentioning
confidence: 99%
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“…For Zone I, there is a high dislocation density, which can serve as the nucleation sites for the precipitates, thus the precipitation is accelerated to form such a zone abundant in a large amount of precipitates [9,[21][22][23][24][25].…”
Section: Three Precipitation Zones In Compositesmentioning
confidence: 99%
“…On the other hand, there have been also some attempts to quantify elastic strains which are caused by coherent ordered precipitates and ceramic reinforcements in metallic alloys [3,4]. The elastic strain gradient's importance relies on the possibility of including them in the mechanical properties predictions that some theoretical models have, mainly due to alteration of aging kinetics as well as dislocations mobility [5,6]. One alloy on which aging produces nanoscale precipitates as well as strain fields (due to the different lattice parameter values) is the 2024 Al alloy used in aeronautic applications [7].…”
Section: Introductionmentioning
confidence: 99%