DOI: 10.17077/etd.mh6soek8
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Thermomechanical response of metal-ceramic graded composites for high-temperature aerospace applications

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Cited by 1 publication
(3 citation statements)
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“…The results showed that the choice of the RVE did not have a strong influence on the effective FGCM properties. The predicted values were close to or within the bounds of Hashin and Shtrikman, Schapery, and Rosen and Hashin bounds for elasticity, thermal conductivity, CTE and specific heat, respectively [58]. Further, the effect of porosity distribution as a third phase on the thermomechanical properties was also investigated.…”
Section: Eqn Nosupporting
confidence: 67%
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“…The results showed that the choice of the RVE did not have a strong influence on the effective FGCM properties. The predicted values were close to or within the bounds of Hashin and Shtrikman, Schapery, and Rosen and Hashin bounds for elasticity, thermal conductivity, CTE and specific heat, respectively [58]. Further, the effect of porosity distribution as a third phase on the thermomechanical properties was also investigated.…”
Section: Eqn Nosupporting
confidence: 67%
“…The effect of the different values of the exponent n on the volume fraction distribution of a constituent in the continuously graded and discretely graded FGCMs is shown in Figure 4. Expressions have also been developed for designing the volume fraction distribution of 2D FGCMs [52,58]. Modelling of composite materials has been carried out extensively to predict various properties depending upon the volume fraction of the individual constituents, their morphology, and the relevant properties of these constituents.…”
Section: Eqn Nomentioning
confidence: 99%
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