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    • A novel micro-mechanical model for prediction of multiaxial high cycle fatigue at small scales

    Reza Eslami

    Band 64 von Schriftenreihe des Instituts für Angewandte Materialien, Karlsruher Institut für Technologie
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    The grain microstructure and damage mechanisms at the grain level are the key factors that influence fatigue of metals at small scales. This is addressed in this work by establishing a new micro-mechanical model for prediction of multiaxial high cycle fatigue (HCF) at a length scale of 5-100μm. The HCF model considers elasto-plastic behavior of metals at the grain level and microstructural parameters, specifically the grain size and the grain orientation.

    Umfang: X, 112 S.

    Preis: €39.00 | £36.00 | $69.00

    Fächer:

    Maschinenbau und Verfahrenstechnik 

    Schlagwörter:

    Multiaxial high cycle fatigue (HCF) Grain size and grain orientation Micro-damage Probabilistic methods MEMS

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    Empfohlene Zitierweise
    Eslami, R. 2017. A novel micro-mechanical model for prediction of multiaxial high cycle fatigue at small scales. Karlsruhe: KIT Scientific Publishing. DOI: https://doi.org/10.5445/KSP/1000059741
    Eslami, R., 2017. A novel micro-mechanical model for prediction of multiaxial high cycle fatigue at small scales. Karlsruhe: KIT Scientific Publishing. DOI: https://doi.org/10.5445/KSP/1000059741
    Eslami, R. A Novel Micro-mechanical Model for Prediction of Multiaxial High Cycle Fatigue at Small Scales. KIT Scientific Publishing, 2017. DOI: https://doi.org/10.5445/KSP/1000059741
    Eslami, R. (2017). A novel micro-mechanical model for prediction of multiaxial high cycle fatigue at small scales. Karlsruhe: KIT Scientific Publishing. DOI: https://doi.org/10.5445/KSP/1000059741
    Eslami, Reza. 2017. A Novel Micro-mechanical Model for Prediction of Multiaxial High Cycle Fatigue at Small Scales. Karlsruhe: KIT Scientific Publishing. DOI: https://doi.org/10.5445/KSP/1000059741



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    Weitere Informationen

    Veröffentlicht am 3. Mai 2017

    Sprache

    Englisch

    Seitenanzahl:

    144

    ISBN
    Paperback 978-3-7315-0583-9

    DOI
    https://doi.org/10.5445/KSP/1000059741