Processing and Properties of Metal-matrix Composites Reinforced With Continuous Fibers for the Control of Thermal-expansion, Creep Resistance and Fracture-toughness

Delannay, E.;Colin, C.;Marchal, Y.;Tao, L.;Dellis, MA.;et.al.
(1993) 3rd European Conference on Advanced Materials and Processes — Location: PARIS(France) (8.June.1993)

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Authors
  • Delannay, E.
    Author
  • Colin, C.
    Author
  • Marchal, Y.
    Author
  • Tao, L.
    Author
  • Dellis, MA.
    Author
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Abstract
Al-, Zn-, and Cu-based matrix composites reinforced with continuous fibres of carbon, SiC, Al2O3, or steel have been processed by squeeze casting or powder metallurgy. Interface reactions can be controlled by alloying additions in the matrix. Interface adhesion has been characterized from the distributions of fibre pull-out lengths on fracture surfaces. Thermal expansion curves reveal the magnitude of the stress transfer at interfaces. In the case of low melting point matrices, ductile steel fibres offer the best combination of fracture toughness and creep resistance.
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Delannay, E., Colin, C., Marchal, Y., Tao, L., Boland, F., Cobzaru, P., Lips, B., & Dellis, MA. (1993). Processing and Properties of Metal-matrix Composites Reinforced With Continuous Fibers for the Control of Thermal-expansion, Creep Resistance and Fracture-toughness. Journal de Physique IV, 3(C7), 1675-1684. https://hdl.handle.net/2078.5/42530 (Original work published 1993)