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The Single Fiber Composite Test: A Comparison of E-Glass Fiber Fragmentation Data with Statistical Theories

Tipo de material: TextoTextoSeries ; Journal of Applied Polymer Science, 117(1), p.509-516, 2010Trabajos contenidos:
  • Holmes, G.A
  • Kim, J.H
  • Leigh, S
  • Mcdonough, W
Tema(s): Recursos en línea: Resumen: The exact theories advanced by Curtin6 and Hui et al.7 to describe the fiber break evolution process in single fiber composites are found to be incorrect when compared with experimental data. In contrast to theoretical predictions where the matrix is assumed to be elastic perfectly plastic, experimental data indicate that the sizes of the fragment lengths that survive to saturation decrease as the strain is increased. It is also shown that the break locations at saturation are uniform along the length of the fiber specimens, with the uniformity apparently being independent of interfacial shear strength, fiber type, matrix type, and fiber-fiber interactions. The theory of uniform spacings gives an explicit distribution function for the ordered fragment lengths.
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The exact theories advanced by Curtin6 and Hui et al.7 to describe the fiber break evolution process in single fiber composites are found to be incorrect when compared with experimental data. In contrast to theoretical predictions where the matrix is assumed to be elastic perfectly plastic, experimental data indicate that the sizes of the fragment lengths that survive to saturation decrease as the strain is increased. It is also shown that the break locations at saturation are uniform along the length of the fiber specimens, with the uniformity apparently being independent of interfacial shear strength, fiber type, matrix type, and fiber-fiber interactions. The theory of uniform spacings gives an explicit distribution function for the ordered fragment lengths.

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