Evaluation of Safety in Horizontal Curves of Roads Using a Multi-Body Dynamic Simulation Process

Evaluation of Safety in Horizontal Curves of Roads Using a Multi-Body Dynamic Simulation Process

<b> </b>Road transportation poses one of the significant public health risks. Several contributors and factors strongly link public health and road safety. The design and advancement of higher-quality roads can significantly contribute to safer roads and save lives. In this article, the...

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Main Authors: Amir Saman Abdollahzadeh Nasiri, Omid Rahmani, Ali Abdi Kordani, Nader Karballaeezadeh, Amir Mosavi
Format: Article
Language:English
Published: MDPI AG 2020-08-01
Series:International Journal of Environmental Research and Public Health
Subjects:
road safety
transport safety
accident analysis and prevention
public health risks
horizontal curves
safety margin parameter
Online Access:https://www.mdpi.com/1660-4601/17/16/5975
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spelling doaj-7c4da81b11404856a1388883ebe9f13b2020-11-25T03:38:40ZengMDPI AGInternational Journal of Environmental Research and Public Health1661-78271660-46012020-08-01175975597510.3390/ijerph17165975Evaluation of Safety in Horizontal Curves of Roads Using a Multi-Body Dynamic Simulation ProcessAmir Saman Abdollahzadeh Nasiri0Omid Rahmani1Ali Abdi Kordani2Nader Karballaeezadeh3Amir Mosavi4Department of Civil Engineering, South Tehran Branch, Azad University, Tehran 1584715414, IranFaculty of Civil Engineering, Shahrood University of Technology, Shahrood 3619995161, IranDepartment of Civil Engineering, Imam Khomeini International University, Qazvin 3414896818, IranFaculty of Civil Engineering, Shahrood University of Technology, Shahrood 3619995161, IranFaculty of Civil Engineering, Technische Universität Dresden, 01069 Dresden, Germany<b> </b>Road transportation poses one of the significant public health risks. Several contributors and factors strongly link public health and road safety. The design and advancement of higher-quality roads can significantly contribute to safer roads and save lives. In this article, the safety aspect of the roads’ horizontal curves under the standard of the American Association of State Highway Transportation Officials (AASHTO) is evaluated. Several factors, including vehicle weight, vehicle dimensions, longitudinal grades, and vehicle speed in the geometric design of the horizontal curves, are investigated through a multi-body dynamic simulation<b> </b>process. According to the AASHTO, a combination of simple circular and clothoid transition curves with various longitudinal upgrades and downgrades was designed. Three vehicles were used in this simulation, including a sedan, a bus, and a 3-axle truck. The analysis was based on the lateral friction between the tire and the pavement and also the safety margin parameter. The results showed that designers must differentiate between light and heavy vehicles, especially in curves with a high radius. Evaluation of longitudinal grade impacts indicated that the safety margin decreases when the vehicle is entering the curve. Safety margin reduction on the clothoid curve takes place with a lower grade toward the simple circular curve. By increasing the speed, the difference between lateral friction demand obtained from simulation and lateral friction demand proposed by AASHTO grows. The proposed novel methodology can be used for evaluating road safety.https://www.mdpi.com/1660-4601/17/16/5975road safetytransport safetyaccident analysis and preventionpublic health riskshorizontal curvessafety margin parameter
collection DOAJ
language English
format Article
sources DOAJ
author Amir Saman Abdollahzadeh Nasiri
Omid Rahmani
Ali Abdi Kordani
Nader Karballaeezadeh
Amir Mosavi
spellingShingle Amir Saman Abdollahzadeh Nasiri
Omid Rahmani
Ali Abdi Kordani
Nader Karballaeezadeh
Amir Mosavi
Evaluation of Safety in Horizontal Curves of Roads Using a Multi-Body Dynamic Simulation Process
International Journal of Environmental Research and Public Health
road safety
transport safety
accident analysis and prevention
public health risks
horizontal curves
safety margin parameter
author_facet Amir Saman Abdollahzadeh Nasiri
Omid Rahmani
Ali Abdi Kordani
Nader Karballaeezadeh
Amir Mosavi
author_sort Amir Saman Abdollahzadeh Nasiri
title Evaluation of Safety in Horizontal Curves of Roads Using a Multi-Body Dynamic Simulation Process
title_short Evaluation of Safety in Horizontal Curves of Roads Using a Multi-Body Dynamic Simulation Process
title_full Evaluation of Safety in Horizontal Curves of Roads Using a Multi-Body Dynamic Simulation Process
title_fullStr Evaluation of Safety in Horizontal Curves of Roads Using a Multi-Body Dynamic Simulation Process
title_full_unstemmed Evaluation of Safety in Horizontal Curves of Roads Using a Multi-Body Dynamic Simulation Process
title_sort evaluation of safety in horizontal curves of roads using a multi-body dynamic simulation process
publisher MDPI AG
series International Journal of Environmental Research and Public Health
issn 1661-7827
1660-4601
publishDate 2020-08-01
description <b> </b>Road transportation poses one of the significant public health risks. Several contributors and factors strongly link public health and road safety. The design and advancement of higher-quality roads can significantly contribute to safer roads and save lives. In this article, the safety aspect of the roads’ horizontal curves under the standard of the American Association of State Highway Transportation Officials (AASHTO) is evaluated. Several factors, including vehicle weight, vehicle dimensions, longitudinal grades, and vehicle speed in the geometric design of the horizontal curves, are investigated through a multi-body dynamic simulation<b> </b>process. According to the AASHTO, a combination of simple circular and clothoid transition curves with various longitudinal upgrades and downgrades was designed. Three vehicles were used in this simulation, including a sedan, a bus, and a 3-axle truck. The analysis was based on the lateral friction between the tire and the pavement and also the safety margin parameter. The results showed that designers must differentiate between light and heavy vehicles, especially in curves with a high radius. Evaluation of longitudinal grade impacts indicated that the safety margin decreases when the vehicle is entering the curve. Safety margin reduction on the clothoid curve takes place with a lower grade toward the simple circular curve. By increasing the speed, the difference between lateral friction demand obtained from simulation and lateral friction demand proposed by AASHTO grows. The proposed novel methodology can be used for evaluating road safety.
topic road safety
transport safety
accident analysis and prevention
public health risks
horizontal curves
safety margin parameter
url https://www.mdpi.com/1660-4601/17/16/5975
work_keys_str_mv AT amirsamanabdollahzadehnasiri evaluationofsafetyinhorizontalcurvesofroadsusingamultibodydynamicsimulationprocess
AT omidrahmani evaluationofsafetyinhorizontalcurvesofroadsusingamultibodydynamicsimulationprocess
AT aliabdikordani evaluationofsafetyinhorizontalcurvesofroadsusingamultibodydynamicsimulationprocess
AT naderkarballaeezadeh evaluationofsafetyinhorizontalcurvesofroadsusingamultibodydynamicsimulationprocess
AT amirmosavi evaluationofsafetyinhorizontalcurvesofroadsusingamultibodydynamicsimulationprocess
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