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    Dynamic Response of Cantilevers

    New search for: Yu, T.X.
    New search for: Qiu, XinMing

    This chapter analyzes the dynamic response of cantilevers to various loading conditions. When the step force is lower than the limit load, the cantilever remains undeformed as the material is supposed to be rigid‐plastic. The distribution of acceleration is proportional to the distributed inertia forces along the beam. The chapter discusses the dynamic response of a cantilever to pulse loading. Assuming the deformation of the cantilever remains small in comparison with its length, the initial configuration is used when formulating equilibrium and geometrical relationships. The chapter analyzes the energy dissipation during the dynamic response. It also discusses the dynamic response of a cantilever under a general pulse loading. The chapter provides the relation between the velocity, acceleration, shear force, and bending moment distribution along the cantilever. It expresses that a rigid‐perfectly plastic cantilever has all the deformation concentrated at a plastic hinge.

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    Dynamic Response of Cantilevers

    New search for: Yu, T.X.
    New search for: Qiu, XinMing

    This chapter analyzes the dynamic response of cantilevers to various loading conditions. When the step force is lower than the limit load, the cantilever remains undeformed as the material is supposed to be rigid‐plastic. The distribution of acceleration is proportional to the distributed inertia forces along the beam. The chapter discusses the dynamic response of a cantilever to pulse loading. Assuming the deformation of the cantilever remains small in comparison with its length, the initial configuration is used when formulating equilibrium and geometrical relationships. The chapter analyzes the energy dissipation during the dynamic response. It also discusses the dynamic response of a cantilever under a general pulse loading. The chapter provides the relation between the velocity, acceleration, shear force, and bending moment distribution along the cantilever. It expresses that a rigid‐perfectly plastic cantilever has all the deformation concentrated at a plastic hinge.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Dynamic Response of Cantilevers

    New search for: Yu, T.X.
    New search for: Qiu, XinMing

    This chapter analyzes the dynamic response of cantilevers to various loading conditions. When the step force is lower than the limit load, the cantilever remains undeformed as the material is supposed to be rigid‐plastic. The distribution of acceleration is proportional to the distributed inertia forces along the beam. The chapter discusses the dynamic response of a cantilever to pulse loading. Assuming the deformation of the cantilever remains small in comparison with its length, the initial configuration is used when formulating equilibrium and geometrical relationships. The chapter analyzes the energy dissipation during the dynamic response. It also discusses the dynamic response of a cantilever under a general pulse loading. The chapter provides the relation between the velocity, acceleration, shear force, and bending moment distribution along the cantilever. It expresses that a rigid‐perfectly plastic cantilever has all the deformation concentrated at a plastic hinge.

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    Title:

    Dynamic Response of Cantilevers

    Contributors:

    Yu, T.X. (author) / Qiu, XinMing (author)

    Published in:

    Introduction to Impact Dynamics ; 115-137

    Publication date:

    2018-01-08

    Size:

    23 pages

    ISBN:

    9781118929841 , 9781119113133

    DOI:

    https://doi.org/10.1002/9781119113133.ch6

    Type of media:

    Article/Chapter (Book)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    inertia forces , bending moment distribution , cantilevers , velocity , pulse loading , plastic hinge , acceleration , dynamic response

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