Add to ORKGAbstract The objective of this study is to identify the dynamic material properties of human passive muscle tis-sues for the strain rates relevant to automobile crashes. A novel methodology involving genetic algorithm (GA) and finite element method is implemented to estimate the material parameters by inverse mapping the impact test data. Isolated unconfined impact tests for average strain rates ranging from 136 s−1 to 262 s−1 are performed on muscle tissues. Passive muscle tissues are modelled as isotropic, linear and visco-elastic material using three-element Zener model available in PAMCRASHTM explicit finite element software. In the GA based identification process, fitness values are calculated by comparing the estimated finite element ...
Research of biomaterials in loading conditions has become a significant field in the material scienc...
International audienceThe purpose of this study was to develop an inverse method, coupling imaging t...
Nanoindentation testing can be used as experimental technique for determining the material parameter...
International audienceGoal: A non-invasive method is proposed to identify in vivo the passive mechan...
Constitutive modeling of material behavior is becoming increasingly important in prediction of possi...
Identification of material constitutive parameters is critical for accurate representation of the me...
In models developed for impact biomechanics, muscles are usually represented with one-dimensional el...
THESIS 9682This thesis focusses on the development of an experimental and computational framework fo...
Mechanical material characterization represents a research challenge. Furthermore, special attention...
The estimation of material parameters in constitutive models for soft biological materials such as m...
International audienceThe passive elastic properties of a muscle–tendon complex are usually estimate...
Quantitative measurement of the material properties (eg, stiffness) of biological tissues is poised ...
We introduce a new function, the apparent elastic modulus strain-rate spectrum, (Formula presented.)...
Introduction: The estimation of the non-linear viscoelastic characteristics of human soft tissues, s...
In this paper, the viscoelastic characterization of biosamples is addressed considering a measuring ...
Research of biomaterials in loading conditions has become a significant field in the material scienc...
International audienceThe purpose of this study was to develop an inverse method, coupling imaging t...
Nanoindentation testing can be used as experimental technique for determining the material parameter...
International audienceGoal: A non-invasive method is proposed to identify in vivo the passive mechan...
Constitutive modeling of material behavior is becoming increasingly important in prediction of possi...
Identification of material constitutive parameters is critical for accurate representation of the me...
In models developed for impact biomechanics, muscles are usually represented with one-dimensional el...
THESIS 9682This thesis focusses on the development of an experimental and computational framework fo...
Mechanical material characterization represents a research challenge. Furthermore, special attention...
The estimation of material parameters in constitutive models for soft biological materials such as m...
International audienceThe passive elastic properties of a muscle–tendon complex are usually estimate...
Quantitative measurement of the material properties (eg, stiffness) of biological tissues is poised ...
We introduce a new function, the apparent elastic modulus strain-rate spectrum, (Formula presented.)...
Introduction: The estimation of the non-linear viscoelastic characteristics of human soft tissues, s...
In this paper, the viscoelastic characterization of biosamples is addressed considering a measuring ...
Research of biomaterials in loading conditions has become a significant field in the material scienc...
International audienceThe purpose of this study was to develop an inverse method, coupling imaging t...
Nanoindentation testing can be used as experimental technique for determining the material parameter...