The developed finite element model of the human skull is used for analysis of transient phenomena after impact loading of the skull. Two methods of numerical simulation of the time response are described. The results are compared with the original experiments
The analysis of two FE models of the skull with the brain tissue is presented. One is of the fluid a...
Traumatic brain injury is the main cause of disability and death in children and infants. This thesi...
This study is aimed at developing a high quality, validated finite element (FE) human head model for...
ABSTRACT Head injury constitutes approximately 50 percent of all injuries sustained in transition an...
This study proposes a detailed biomechanical model of the human head to study the effect of non-pene...
An investigation of the mechanical response of the human head subject to externally applied forces i...
The finite element method (FEM) is a way of solving partial differential equation on a spatially (an...
The procedures used in the modelling of the skull from the series of computer tomography
The frequency dependent transfer functions between various anatomically important points on the skul...
The contribution deals with the analysis of wawe propagation in human skull filled by a folling whic...
A two-dimensional plane strain finite element representation of the head was constructed and incorpo...
The mechanism of brain contusion is investigated using a finite element analysis. Prior to the numer...
The objective of this study is to obtain a better understanding of the possible importance of skull-...
Many discrepancies are found in the literature regarding the damage and constitutive models for head...
To develop protective measures for crash situations, an accurate assessment of injury risk is requir...
The analysis of two FE models of the skull with the brain tissue is presented. One is of the fluid a...
Traumatic brain injury is the main cause of disability and death in children and infants. This thesi...
This study is aimed at developing a high quality, validated finite element (FE) human head model for...
ABSTRACT Head injury constitutes approximately 50 percent of all injuries sustained in transition an...
This study proposes a detailed biomechanical model of the human head to study the effect of non-pene...
An investigation of the mechanical response of the human head subject to externally applied forces i...
The finite element method (FEM) is a way of solving partial differential equation on a spatially (an...
The procedures used in the modelling of the skull from the series of computer tomography
The frequency dependent transfer functions between various anatomically important points on the skul...
The contribution deals with the analysis of wawe propagation in human skull filled by a folling whic...
A two-dimensional plane strain finite element representation of the head was constructed and incorpo...
The mechanism of brain contusion is investigated using a finite element analysis. Prior to the numer...
The objective of this study is to obtain a better understanding of the possible importance of skull-...
Many discrepancies are found in the literature regarding the damage and constitutive models for head...
To develop protective measures for crash situations, an accurate assessment of injury risk is requir...
The analysis of two FE models of the skull with the brain tissue is presented. One is of the fluid a...
Traumatic brain injury is the main cause of disability and death in children and infants. This thesi...
This study is aimed at developing a high quality, validated finite element (FE) human head model for...