Hamid Khodaei scite author profile

Hamid Khodaei

3Publications

13Citation Statements Received

117Citation Statements Given

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114

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École de Technologie Supérieure, Chalmers University of Technology

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Simulation of active skeletal muscle tissue with a transversely isotropic viscohyperelastic continuum material model

Khodaei

Mostofizadeh

Brolin

et al. 2013

Proc Inst Mech Eng H

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Human body models with biofidelic kinematics in vehicle pre-crash and crash simulations require a constitutive model of muscle tissue with both passive and active properties. Therefore, a transversely isotropic viscohyperelastic continuum material model with element-local fiber definition and activation capability is suggested for use with explicit finite element codes. Simulations of experiments with New Zealand rabbit's tibialis anterior muscle at three different strain rates were performed. Three different active force-length relations were used, where a robust performance of the material model was observed. The results were compared with the experimental data and the simulation results from a previous study, where the muscle tissue was modeled with a combination of discrete and continuum elements. The proposed material model compared favorably, and integrating the active properties of the muscle into a continuum material model opens for applications with complex muscle geometries.

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Experimental validation of shape memory material model implemented in commercial finite element software under multiaxial loading

Khodaei

Terriault

2018

Journal of Intelligent Material Systems and Structures

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Shape memory alloys are used in ever-increasing numbers of applications, such as implants made of porous shape memory alloys, where the material is subjected to complex loading conditions with various loading paths. Finite element simulation of such parts requires utilizing a constitutive model that is able to capture the multiaxial and path-dependent behavior of shape memory alloys. The main objective of this article is to investigate the accuracy of the constitutive model implemented in current commercial finite element software such as Ansys in predicting the shape memory alloys mechanical response under different multiaxial loading paths. To this end, several isothermal tests were conducted on thin-walled NiTi tubes with uniaxial, as well as multiaxial, path-varying loadings. The performance of the material model within Ansys was then investigated by finite element modeling of the sample tubes and performing simulations of the tests. Comparing the finite element results with experimental data, it was observed that while this model provided a close prediction of the uniaxial tensile superelastic response, it was not able to reproduce the multiaxial and path-dependent behavior of the shape memory alloy samples with sufficient accuracy. A brief discussion of the reasons behind the inaccuracy of the current model and potentially promising models for future investigation are provided.

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Centrifuge Modeling Of Monopiles Subjected To Lateral Monotonic Loading

Khodaei¹,

Moradi²,

Tajik³

2018

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Hamid Khodaei

Simulation of active skeletal muscle tissue with a transversely isotropic viscohyperelastic continuum material model

Experimental validation of shape memory material model implemented in commercial finite element software under multiaxial loading

Centrifuge Modeling Of Monopiles Subjected To Lateral Monotonic Loading

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