Add to ORKGThis paper is focused on understanding the mechanism that gives the bicycle helmet the role of protecting the head during an impact. The finite element method is used here as a first step in the helmet optimisation and improvement process. The relation between different helmet mechanical parameters and the risk of head injury during the impact is described using MSC Marc Mentat finite element software. The reduction in resulting head linear acceleration by more than 80% and in resulting stress by more than 65% prove the protective effect of all materials studied with an indication of superior behaviour for the anisotropic foamstatus: publishe
In this paper, a numerical and experimental study of the shock absorption properties of bike helmets...
In this paper, a numerical and experimental study of the shock absorption properties of bike helmets...
AbstractImpact attenuation performance of three different range of commercial bicycle helmet were in...
This paper is focused on understanding the mechanism that gives the bicycle helmet the role of prote...
This paper focuses on the mechanical characterisation of the helmets by using the finite element met...
Abstract: Finite-element analysis (FEA) was used to consider the improvement of bicycle helmet perfo...
In Sweden the most common traffic group that needs to be hospitalized due to injury is cyclists wher...
Prior studies conducted within the research framework of the KU Leuven Bicycle Helmet Group have sho...
This study evaluates various safety aspects of standardized impacts that cyclists may suffer while w...
This study evaluates various safety aspects of standardized impacts that cyclists may suffer while w...
This study evaluates various safety aspects of standardized impacts that cyclists may suffer while w...
The density of foam used as energy absorbing liner material in safety helmets was optimised in this ...
In this paper, a numerical and experimental study of the shock absorption properties of bike helmets...
In this paper, a numerical and experimental study of the shock absorption properties of bike helmets...
In this paper, a numerical and experimental study of the shock absorption properties of bike helmets...
In this paper, a numerical and experimental study of the shock absorption properties of bike helmets...
In this paper, a numerical and experimental study of the shock absorption properties of bike helmets...
AbstractImpact attenuation performance of three different range of commercial bicycle helmet were in...
This paper is focused on understanding the mechanism that gives the bicycle helmet the role of prote...
This paper focuses on the mechanical characterisation of the helmets by using the finite element met...
Abstract: Finite-element analysis (FEA) was used to consider the improvement of bicycle helmet perfo...
In Sweden the most common traffic group that needs to be hospitalized due to injury is cyclists wher...
Prior studies conducted within the research framework of the KU Leuven Bicycle Helmet Group have sho...
This study evaluates various safety aspects of standardized impacts that cyclists may suffer while w...
This study evaluates various safety aspects of standardized impacts that cyclists may suffer while w...
This study evaluates various safety aspects of standardized impacts that cyclists may suffer while w...
The density of foam used as energy absorbing liner material in safety helmets was optimised in this ...
In this paper, a numerical and experimental study of the shock absorption properties of bike helmets...
In this paper, a numerical and experimental study of the shock absorption properties of bike helmets...
In this paper, a numerical and experimental study of the shock absorption properties of bike helmets...
In this paper, a numerical and experimental study of the shock absorption properties of bike helmets...
In this paper, a numerical and experimental study of the shock absorption properties of bike helmets...
AbstractImpact attenuation performance of three different range of commercial bicycle helmet were in...