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The tensile properties of a graphite-fiber-reinforced Al-Si alloy

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Abstract

Room temperature uniaxial tensile tests have shown that composites of an Al-13 wt pct Si alloy and Thornel 50 graphite fibers have strengths greater than a theoretical value that was calculated on the basis of the law of mixtures. At 28 vol pct fibers, the average uniaxial tensile strength was found to be 106,000 psi, and several values between 130,000 and 144,000 psi were obtained. The modes of deformation and failure in the composites have been studied by the microexamination of polished surfaces and fractures of tested specimens. The reasons for the high strengths and the unusual modes of fracture that were observed cannot be explained on the basis of the presented data. Specimens of the composite have been thermally cycled between −193° and +20°C twenty times and others between −193° and +500°C twenty times. Tensile tests and microexamination of these thermally cycled specimens show that thermal cycling does not degrade the tensile properties of the composites or change their microstructure.

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References

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Authors and Affiliations

  1. Aerospace Corp., El Segundo, Calif

    Roger T. Pepper (Section Head-Metal Composites Group), John W. Upp (Member Technical Staff-Metallurgy Department), Ronald C. Rossi (Manager-Graphite and Ceramics Section) & E. George Kendall (Head-Metallurgy Department)

Authors
  1. Roger T. Pepper
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  2. John W. Upp
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  3. Ronald C. Rossi
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  4. E. George Kendall
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Pepper, R.T., Upp, J.W., Rossi, R.C. et al. The tensile properties of a graphite-fiber-reinforced Al-Si alloy. Metall Trans 2, 117–120 (1971). https://doi.org/10.1007/BF02662645

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  • DOI: https://doi.org/10.1007/BF02662645

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