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    A new higher order shear deformation model for functionally graded beams

    New search for: Hadji, Lazreg
    New search for: Khelifa, Zoubida
    New search for: Abbes, Adda Bedia

    Abstract In this paper, a new higher order shear deformation model is developed for static and free vibration analysis of functionally graded beams. The theory account for higher-order variation of transverse shear strain through the depth of the beam and satisfies the zero traction boundary conditions on the surfaces of the beam without using shear correction factors. The material properties of the functionally graded beam are assumed to vary according to power law distribution of the volume fraction of the constituents. Based on the present higher-order shear deformation beam theory, the equations of motion are derived from Hamilton’s principle. Navier type solution method was used to obtain frequencies. A static and free vibration frequency is given for different material properties. The accuracy of the present solutions is verified by comparing the obtained results with the existing solutions.

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    A new higher order shear deformation model for functionally graded beams

    New search for: Hadji, Lazreg
    New search for: Khelifa, Zoubida
    New search for: Abbes, Adda Bedia

    Abstract In this paper, a new higher order shear deformation model is developed for static and free vibration analysis of functionally graded beams. The theory account for higher-order variation of transverse shear strain through the depth of the beam and satisfies the zero traction boundary conditions on the surfaces of the beam without using shear correction factors. The material properties of the functionally graded beam are assumed to vary according to power law distribution of the volume fraction of the constituents. Based on the present higher-order shear deformation beam theory, the equations of motion are derived from Hamilton’s principle. Navier type solution method was used to obtain frequencies. A static and free vibration frequency is given for different material properties. The accuracy of the present solutions is verified by comparing the obtained results with the existing solutions.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    A new higher order shear deformation model for functionally graded beams

    New search for: Hadji, Lazreg
    New search for: Khelifa, Zoubida
    New search for: Abbes, Adda Bedia

    Abstract In this paper, a new higher order shear deformation model is developed for static and free vibration analysis of functionally graded beams. The theory account for higher-order variation of transverse shear strain through the depth of the beam and satisfies the zero traction boundary conditions on the surfaces of the beam without using shear correction factors. The material properties of the functionally graded beam are assumed to vary according to power law distribution of the volume fraction of the constituents. Based on the present higher-order shear deformation beam theory, the equations of motion are derived from Hamilton’s principle. Navier type solution method was used to obtain frequencies. A static and free vibration frequency is given for different material properties. The accuracy of the present solutions is verified by comparing the obtained results with the existing solutions.

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    Title:

    A new higher order shear deformation model for functionally graded beams

    Contributors:

    Hadji, Lazreg (author) / Khelifa, Zoubida (author) / Abbes, Adda Bedia (author)

    Published in:

    KSCE Journal of Civil Engineering ; 20 ; 1835-1841

    Publication date:

    2015-08-31

    Size:

    7 pages

    ISSN:

    1976-3808 , 1226-7988

    DOI:

    https://doi.org/10.1007/s12205-015-0252-0

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    functionally graded beam , bending , vibration , shear deformation theory Engineering , Civil Engineering , Industrial Pollution Prevention , Geotechnical Engineering & Applied Earth Sciences

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