According to the biological material properties used in predecessors\u27 literature, a FE thorax model is developed based on human anatomical structures. With the model a series of simulations on predecessors\u27 experiments are conducted, including simulations on three-point bending test for ribs performed by Kallieris, the rib structural experiments conducted by Zuoping Li, and Patrick\u27s series experiments of low-speed impact. The results indicate that the thorax FE model can be effectively used for biomechanical researches on human thorax injuries in vehicle collisions
The biomechanical response of a finite element model of the human thorax and a protective body armor...
As one of the most frequently occurring injuries, thoracic trauma is a significant public health bur...
Finite-element human body models (FE-HBMs) can be used to evaluate restraint systems by predicting t...
According to the biological material properties used in predecessors' literature, a FE thorax model ...
This study aimed at investigation of the response of the human thorax under various loading conditio...
The purpose of the current study was to analyze the influence of changes of the material of the huma...
This study aimed at investigating the mechanism of the human rib fracture under various impact loadi...
Traditionally, restraint systems have been evaluated with Anthropomorphic Test Devices (ATDs) and th...
The study focused on the validation of the 50 th percentile male model — a detailed FE model of the ...
The objective of this study is to develop a finite element model of the human thorax with a protecti...
Thoracic trauma is the principal causative factor in 30% of road traffic deaths [1]. And when 6 or m...
Based on anatomical features of a 50th percentile adult male, three-dimensional (3D) finite element ...
In the paper, finite element analysis of the rib cage model is applied to recognize stress distribut...
In this paper, mechanical analysis of the rib cage model is applied to, recognize stress distributio...
International audienceSeveral authors have been studying the behaviour of ribs subjected to impact l...
The biomechanical response of a finite element model of the human thorax and a protective body armor...
As one of the most frequently occurring injuries, thoracic trauma is a significant public health bur...
Finite-element human body models (FE-HBMs) can be used to evaluate restraint systems by predicting t...
According to the biological material properties used in predecessors' literature, a FE thorax model ...
This study aimed at investigation of the response of the human thorax under various loading conditio...
The purpose of the current study was to analyze the influence of changes of the material of the huma...
This study aimed at investigating the mechanism of the human rib fracture under various impact loadi...
Traditionally, restraint systems have been evaluated with Anthropomorphic Test Devices (ATDs) and th...
The study focused on the validation of the 50 th percentile male model — a detailed FE model of the ...
The objective of this study is to develop a finite element model of the human thorax with a protecti...
Thoracic trauma is the principal causative factor in 30% of road traffic deaths [1]. And when 6 or m...
Based on anatomical features of a 50th percentile adult male, three-dimensional (3D) finite element ...
In the paper, finite element analysis of the rib cage model is applied to recognize stress distribut...
In this paper, mechanical analysis of the rib cage model is applied to, recognize stress distributio...
International audienceSeveral authors have been studying the behaviour of ribs subjected to impact l...
The biomechanical response of a finite element model of the human thorax and a protective body armor...
As one of the most frequently occurring injuries, thoracic trauma is a significant public health bur...
Finite-element human body models (FE-HBMs) can be used to evaluate restraint systems by predicting t...