Crash cushions are designed to gradually absorb the kinetic energy of an impacting vehicle and bring it to a controlled stop within an acceptable distance while maintaining a limited amount of deceleration on the occupants. These cushions are used to protect errant vehicles from hitting rigid objects, such as poles and barriers located at exit locations on roads. Impact performance evaluation of crash cushions are attained according to an EN 1317-3 standard based on various speed limits and impact angles. Crash cushions can be designed to absorb the energy of an impacting vehicle by using different material deformation mechanisms, such as metal plasticity supported by airbag folding or damping. In this study, a new crash cushion system, cal...
A novel energy absorbing mechanism was developed for roadside crash cushion hardware to meet Manual ...
It is important to know their mechanical properties and their failure mechanism during the impact in...
The development of a numerical modelling approach for carbon bre reinforced plastic energy absorbing...
Crash cushions are designed to gradually absorb the kinetic energy of an impacting vehicle and bring...
Crash cushions are designed to gradually absorb the kinetic energy of an impacting vehicle and bring...
PDFTech ReportDOT-TSC-NHTSA-86-1HS-806 962Crash cushionsVehicle paddingImpact testsMechanical proper...
Automotive manufacturers rely on rigorous testing and simulations to construct their vehicles durabl...
Over the past years, car manufacturers have focused their efforts on improving the safety levels of ...
The effectiveness of FEM (Finite element method) approach to improve crashworthiness, both from vehi...
A systematic study is performed to understand the dynamics of collisions involving a modern light we...
In recent decades, improvement of crashworthiness has been achieved by using composite materials, ab...
Abstract: Vehicle collision also known as crash or vehicle accident is a dynamic phenomenon and occu...
The objective of this research is to develop a new and efficient method of absorbing a vehicle??s ki...
812528PDFTech ReportReport No. K-TRAN: KSU-96-8FatalitiesCrash cushionsRecycled materialsTiresSingle...
Rear-end collisions are the most common type of automobile impact; whiplash is the predominant resul...
A novel energy absorbing mechanism was developed for roadside crash cushion hardware to meet Manual ...
It is important to know their mechanical properties and their failure mechanism during the impact in...
The development of a numerical modelling approach for carbon bre reinforced plastic energy absorbing...
Crash cushions are designed to gradually absorb the kinetic energy of an impacting vehicle and bring...
Crash cushions are designed to gradually absorb the kinetic energy of an impacting vehicle and bring...
PDFTech ReportDOT-TSC-NHTSA-86-1HS-806 962Crash cushionsVehicle paddingImpact testsMechanical proper...
Automotive manufacturers rely on rigorous testing and simulations to construct their vehicles durabl...
Over the past years, car manufacturers have focused their efforts on improving the safety levels of ...
The effectiveness of FEM (Finite element method) approach to improve crashworthiness, both from vehi...
A systematic study is performed to understand the dynamics of collisions involving a modern light we...
In recent decades, improvement of crashworthiness has been achieved by using composite materials, ab...
Abstract: Vehicle collision also known as crash or vehicle accident is a dynamic phenomenon and occu...
The objective of this research is to develop a new and efficient method of absorbing a vehicle??s ki...
812528PDFTech ReportReport No. K-TRAN: KSU-96-8FatalitiesCrash cushionsRecycled materialsTiresSingle...
Rear-end collisions are the most common type of automobile impact; whiplash is the predominant resul...
A novel energy absorbing mechanism was developed for roadside crash cushion hardware to meet Manual ...
It is important to know their mechanical properties and their failure mechanism during the impact in...
The development of a numerical modelling approach for carbon bre reinforced plastic energy absorbing...