Nanostructure and mechanical properties of interlayers in fibre reinforced composites

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  • Max Planck Institute of Microstructure Physics
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Original languageEnglish
Pages (from-to)575-582
Number of pages8
JournalKey Engineering Materials
Volume127-131
Publication statusPublished - 1997

Abstract

The mechanical behaviour of fibre reinforced MMCs and CMCs is strongly related to the nanostructure and chemistry of the interlayers between fibre and matrix. Especially the bonding strength and the internal friction coefficient between the constituents are valuable parameters for microstructural engineering of composites. Corresponding interlayer phenomena, revealed by high-voltage and high-resolution electron microscopy including analytical techniques, are presented as they occur in various carbon fibre reinforced magnesium-aluminium alloys and SiC (Nicalon) fibre reinforced Duran glasses. Their influence on the materials properties is discussed taking into account the results of scanning electron microscope in situ deformation tests.

Keywords

    Analytical Electron Microscopy, CMC, Fibre Reinforcement, In Situ Deformation, Interface Structure, MMC, Transmission Electron Microscopy

ASJC Scopus subject areas

Cite this

Nanostructure and mechanical properties of interlayers in fibre reinforced composites. / Pippel, E.; Woltersdorf, J.; Feldhoff, A. et al.
In: Key Engineering Materials, Vol. 127-131, 1997, p. 575-582.

Research output: Contribution to journalArticleResearchpeer review

Pippel, E, Woltersdorf, J, Feldhoff, A & Hähnel, A 1997, 'Nanostructure and mechanical properties of interlayers in fibre reinforced composites', Key Engineering Materials, vol. 127-131, pp. 575-582.
Pippel, E., Woltersdorf, J., Feldhoff, A., & Hähnel, A. (1997). Nanostructure and mechanical properties of interlayers in fibre reinforced composites. Key Engineering Materials, 127-131, 575-582.
Pippel E, Woltersdorf J, Feldhoff A, Hähnel A. Nanostructure and mechanical properties of interlayers in fibre reinforced composites. Key Engineering Materials. 1997;127-131:575-582.
Pippel, E. ; Woltersdorf, J. ; Feldhoff, A. et al. / Nanostructure and mechanical properties of interlayers in fibre reinforced composites. In: Key Engineering Materials. 1997 ; Vol. 127-131. pp. 575-582.
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AU - Pippel, E.

AU - Woltersdorf, J.

AU - Feldhoff, A.

AU - Hähnel, A.

PY - 1997

Y1 - 1997

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AB - The mechanical behaviour of fibre reinforced MMCs and CMCs is strongly related to the nanostructure and chemistry of the interlayers between fibre and matrix. Especially the bonding strength and the internal friction coefficient between the constituents are valuable parameters for microstructural engineering of composites. Corresponding interlayer phenomena, revealed by high-voltage and high-resolution electron microscopy including analytical techniques, are presented as they occur in various carbon fibre reinforced magnesium-aluminium alloys and SiC (Nicalon) fibre reinforced Duran glasses. Their influence on the materials properties is discussed taking into account the results of scanning electron microscope in situ deformation tests.

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KW - In Situ Deformation

KW - Interface Structure

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KW - Transmission Electron Microscopy

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JO - Key Engineering Materials

JF - Key Engineering Materials

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