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    Thermomechanical Behaviour of Shape Memory Alloy Taylor’s Model

    New search for: Bensalah, M. O.
    New search for: Boulmane, L.
    New search for: Hihi, A.

    Abstract In this work, we study the shape memory alloys (S.M.A) micromechanical behaviour of single and polycrystal in the perfect transformation plasticity using Taylor’s approach. This study is based on the kinematical description of the physical mechanisms at the origin of the phenomenon, and on the thermodynamical analysis of the irreversible processes presented by these alloys in such a transformation. The pseudoelastical behaviour of S.M.A is described by defining a pseudoelastical potential through the Gibbs theory, and by application of the second principle of the thermodynamic. We also put out the contribution of the variant’s reorientation mechanism to the micromechanical behaviour.

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    Thermomechanical Behaviour of Shape Memory Alloy Taylor’s Model

    New search for: Bensalah, M. O.
    New search for: Boulmane, L.
    New search for: Hihi, A.

    Abstract In this work, we study the shape memory alloys (S.M.A) micromechanical behaviour of single and polycrystal in the perfect transformation plasticity using Taylor’s approach. This study is based on the kinematical description of the physical mechanisms at the origin of the phenomenon, and on the thermodynamical analysis of the irreversible processes presented by these alloys in such a transformation. The pseudoelastical behaviour of S.M.A is described by defining a pseudoelastical potential through the Gibbs theory, and by application of the second principle of the thermodynamic. We also put out the contribution of the variant’s reorientation mechanism to the micromechanical behaviour.

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    Order at Subito €

    Thermomechanical Behaviour of Shape Memory Alloy Taylor’s Model

    New search for: Bensalah, M. O.
    New search for: Boulmane, L.
    New search for: Hihi, A.

    Abstract In this work, we study the shape memory alloys (S.M.A) micromechanical behaviour of single and polycrystal in the perfect transformation plasticity using Taylor’s approach. This study is based on the kinematical description of the physical mechanisms at the origin of the phenomenon, and on the thermodynamical analysis of the irreversible processes presented by these alloys in such a transformation. The pseudoelastical behaviour of S.M.A is described by defining a pseudoelastical potential through the Gibbs theory, and by application of the second principle of the thermodynamic. We also put out the contribution of the variant’s reorientation mechanism to the micromechanical behaviour.

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    Title:

    Thermomechanical Behaviour of Shape Memory Alloy Taylor’s Model

    Contributors:

    Bensalah, M. O. (author) / Boulmane, L. (author) / Hihi, A. (author)

    Published in:

    IUTAM Symposium on Multiscale Modeling and Characterization of Elastic-Inelastic Behavior of Engineering Materials ; 359-366

    Solid Mechanics and Its Applications ; 114

    Publication date:

    2004-01-01

    Size:

    8 pages

    ISBN:

    978-90-481-6529-2 , 978-94-017-0483-0

    ISSN:

    0925-0042

    DOI:

    https://doi.org/10.1007/978-94-017-0483-0_44

    Type of media:

    Article/Chapter (Book)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Shape Memory Alloy , Transformation Strain , Martensite Variant , Thermomechanical Behaviour , Transformation Plasticity Engineering , Theoretical and Applied Mechanics , Characterization and Evaluation of Materials , Mechanics

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