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A Review of Recycled Aggregates (RAP and RCA) as Unbound Base Course Material for Sustainable Highway Construction Read chapter Read first chapter

2018 | OriginalPaper | Chapter

Finite Strain Plasticity Formulations for Dynamic Beams With and Without Rotational Degrees of Freedom

Authors : Tien Long Nguyen, Carlo Sansour, Mohammed Hjiaj

Published in: Proceedings of the 4th Congrès International de Géotechnique - Ouvrages -Structures

Publisher: Springer Singapore

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Abstract

In this paper, we developed a finite strain multiplicative elasto-plasto-dynamic formulation for Euler-Bernoulli and Timoshenko-type beam. The relations are formulated in an inertial frame approach. The multiplicative decomposition of the deformation gradient and the logarithmic strain measure are used. The exponential map for material evolution equations, as well as the derivative forms is given. In an attempt to deliver a stable time integration scheme for this non-linear beams in the context of finite strain elasto-dynamics, we made use of the concept of the energy-momentum method recently developed by the authors for geometrically exact Euler-Bernoulli and Timoshenko-type elastic beams. One example of finite strain elasto-plastic beam deformation is presented.

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previous chapter Failure Analysis of a Cold-Rolled Steel Tensile Specimen Using a Damage-Plasticity Model
next chapter Fuzzy Linear Elastic Dynamic Analysis of 2-Dimensional Semi-rigid Steel Frame with Fuzzy Fixity Factors
Literature
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Nguyen, T.L., Sansour, C., Hjiaj, M.: Long-term stable time integration scheme for dynamic analysis of planar geometrically exact Timoshenko beams. J. Sound Vibr. 396, 144–171 (2017)CrossRef
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Sansour, C., Nguyen, T.L., Hjiaj, M.: An Energy-momentum method for in-plane geometrically exact Euler-Bernoulli beam dynamics. Int. J. Numer. Meth. Eng. 102, 99–134 (2015)CrossRefMATHMathSciNet
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Metadata
Title
Finite Strain Plasticity Formulations for Dynamic Beams With and Without Rotational Degrees of Freedom
Authors
Tien Long Nguyen
Carlo Sansour
Mohammed Hjiaj
Copyright Year
2018
Publisher
Springer Singapore
Book
Proceedings of the 4th Congrès International de Géotechnique - Ouvrages -Structures

Print ISBN: 978-981-10-6712-9

Electronic ISBN: 978-981-10-6713-6

Copyright Year: 2018

DOI
https://doi.org/10.1007/978-981-10-6713-6_13