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Toughening Mechanism of Silicon Whiskers and Alumina Fibres (γ-Al2O3) Reinforced Ni-Al-Cu Matrix Composites Through “Sintering + Forging”

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Mechanics of Composite, Hybrid & Multi-functional Materials, Volume 5 (SEM 2022)

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Abstract

In this study, the microstructural formation and static/dynamic compression behaviour of recycled Ni-Al-Cu matrix hybrid composites reinforced with silicon whiskers and alumina (Al2O3) fibres will be studied. It is intended to be an alternative to traditional alloys/composites used in the aeronautical industry. These composites generally are produced using by combined “sintering + forging” processes. The static and dynamic properties will be evaluated in detail, considering the relevant scanning electron microscopy (SEM) microstructures (including the distribution of reinforcement elements).

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Author information

Authors and Affiliations

  1. ME-EM Department, Michigan Technological University, Houghton, MI, USA

    Ibrahim Miskioglu

  2. Airbus-HelicoptersComposites Research and Development Centre, Paris, France

    Georges Zambelis

  3. UNICMP-FEM, University of Campinas, Campinas, SP, Brazil

    Fabio Gatamorta

  4. Department of Mechanical Engineering, Atilim University, Ankara, Turkey

    Ozgur Aslan

  5. School of Mechanical and Manufacturing Engineering, ISAE-SUPMECA-Paris, Paris, France

    Emin Bayraktar

Authors
  1. Ibrahim Miskioglu
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  2. Georges Zambelis
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  3. Fabio Gatamorta
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  4. Ozgur Aslan
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  5. Emin Bayraktar
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Corresponding author

Correspondence to Emin Bayraktar .

Editor information

Editors and Affiliations

  1. SENG-116, University of Massachusetts, North Dartmouth, MA, USA

    Vijaya Chalivendra

  2. U.S. Army Research Laboratory, Katy, TX, USA

    Frank Gardea

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Miskioglu, I., Zambelis, G., Gatamorta, F., Aslan, O., Bayraktar, E. (2023). Toughening Mechanism of Silicon Whiskers and Alumina Fibres (γ-Al2O3) Reinforced Ni-Al-Cu Matrix Composites Through “Sintering + Forging”. In: Chalivendra, V., Gardea, F. (eds) Mechanics of Composite, Hybrid & Multi-functional Materials, Volume 5. SEM 2022. Conference Proceedings of the Society for Experimental Mechanics Series. Springer, Cham. https://doi.org/10.1007/978-3-031-17445-2_4

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