Analysis of developed transition road safety barrier systems

•This study aims to provide an overview of behavior of transition systems using previous studies.•To achieve this goal a comprehensive database using crash tests data is developed.•Analysis is applied for different system designs following by comparing results. Road safety barriers protect vehicles...

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Veröffentlicht in:	Accident analysis and prevention 2013-10, Vol.59, p.240-252
Hauptverfasser:	Soltani, Mehrtash, Moghaddam, Taher Baghaee, Karim, Mohamed Rehan, Ramli Sulong, N.H.
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Sprache:	eng
Schlagworte:	Acceleration Accidents, Traffic - prevention & control Automobiles Automotive engineering Barriers Biological and medical sciences Bridges (structures) Crash test Crashworthiness Environment Design - standards Equipment Design - standards Humans Longitudinal barriers Medical sciences Miscellaneous Motor Vehicles Occupant risk Prevention and actions Public health. Hygiene Public health. Hygiene-occupational medicine Risk Road safety Safety Vehicle trajectory
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creator	Soltani, Mehrtash Moghaddam, Taher Baghaee Karim, Mohamed Rehan Ramli Sulong, N.H.
description	•This study aims to provide an overview of behavior of transition systems using previous studies.•To achieve this goal a comprehensive database using crash tests data is developed.•Analysis is applied for different system designs following by comparing results. Road safety barriers protect vehicles from roadside hazards by redirecting errant vehicles in a safe manner as well as providing high levels of safety during and after impact. This paper focused on transition safety barrier systems which were located at the point of attachment between a bridge and roadside barriers. The aim of this study was to provide an overview of the behavior of transition systems located at upstream bridge rail with different designs and performance levels. Design factors such as occupant risk and vehicle trajectory for different systems were collected and compared. To achieve this aim a comprehensive database was developed using previous studies. The comparison showed that Test 3–21, which is conducted by impacting a pickup truck with speed of 100km/h and angle of 25° to transition system, was the most severe test. Occupant impact velocity and ridedown acceleration for heavy vehicles were lower than the amounts for passenger cars and pickup trucks, and in most cases higher occupant lateral impact ridedown acceleration was observed on vehicles subjected to higher levels of damage. The best transition system was selected to give optimum performance which reduced occupant risk factors using the similar crashes in accordance with Test 3–21.
doi_str_mv	10.1016/j.aap.2013.05.029
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Road safety barriers protect vehicles from roadside hazards by redirecting errant vehicles in a safe manner as well as providing high levels of safety during and after impact. This paper focused on transition safety barrier systems which were located at the point of attachment between a bridge and roadside barriers. The aim of this study was to provide an overview of the behavior of transition systems located at upstream bridge rail with different designs and performance levels. Design factors such as occupant risk and vehicle trajectory for different systems were collected and compared. To achieve this aim a comprehensive database was developed using previous studies. The comparison showed that Test 3–21, which is conducted by impacting a pickup truck with speed of 100km/h and angle of 25° to transition system, was the most severe test. Occupant impact velocity and ridedown acceleration for heavy vehicles were lower than the amounts for passenger cars and pickup trucks, and in most cases higher occupant lateral impact ridedown acceleration was observed on vehicles subjected to higher levels of damage. 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Occupant impact velocity and ridedown acceleration for heavy vehicles were lower than the amounts for passenger cars and pickup trucks, and in most cases higher occupant lateral impact ridedown acceleration was observed on vehicles subjected to higher levels of damage. The best transition system was selected to give optimum performance which reduced occupant risk factors using the similar crashes in accordance with Test 3–21.</description><subject>Acceleration</subject><subject>Accidents, Traffic - prevention & control</subject><subject>Automobiles</subject><subject>Automotive engineering</subject><subject>Barriers</subject><subject>Biological and medical sciences</subject><subject>Bridges (structures)</subject><subject>Crash test</subject><subject>Crashworthiness</subject><subject>Environment Design - standards</subject><subject>Equipment Design - standards</subject><subject>Humans</subject><subject>Longitudinal barriers</subject><subject>Medical sciences</subject><subject>Miscellaneous</subject><subject>Motor Vehicles</subject><subject>Occupant risk</subject><subject>Prevention and actions</subject><subject>Public health. Hygiene</subject><subject>Public health. 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source	MEDLINE; ScienceDirect Journals (5 years ago - present)
subjects	Acceleration Accidents, Traffic - prevention & control Automobiles Automotive engineering Barriers Biological and medical sciences Bridges (structures) Crash test Crashworthiness Environment Design - standards Equipment Design - standards Humans Longitudinal barriers Medical sciences Miscellaneous Motor Vehicles Occupant risk Prevention and actions Public health. Hygiene Public health. Hygiene-occupational medicine Risk Road safety Safety Vehicle trajectory
title	Analysis of developed transition road safety barrier systems
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