International Journal of Vehicle Structures and Systems

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Heavy Truck Occupant Safety Analysis Using Finite Element Simulation


Affiliations
1 Department of Aeronautical Engineering, Tagore Engineering College, Chennai, India
2 Department of Mechanical and Aerospace Engineering, State University of New York at Buffalo, Buffalo, United States
     

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Numerical simulation of automotive crashes plays an important role in reducing the cost and time taken for predicting the results of a collision. The subject of interior crash protection has received much attention for automobiles than commercial vehicles like heavy trucks. This paper presents a Finite Element simulation of a heavy truck cab for safety analysis of its occupant during frontal collisions. The dashboard of the cab is modelled along with a steering column, floor and a roof top. Two type of acceleration pulses are used to calculate the Head Injury Criteria, Neck Injury and chest injury levels of the occupant. Three different scenarios of occupant namely without seatbelt, with seatbelt, and with both airbag and seatbelt are detailed. The results of simulation have demonstrated that the use of safety restraints has reduced the occupants injury to considerable levels.

Keywords

Heavy Truck, Finite Element Analysis, Occupant Safety Analysis, Head Injury Criteria, Neck Injury Criteria.
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  • Heavy Truck Occupant Safety Analysis Using Finite Element Simulation

Abstract Views: 237  |  PDF Views: 3

Authors

R. Asad Ahmed
Department of Aeronautical Engineering, Tagore Engineering College, Chennai, India
Abani K. Patra
Department of Mechanical and Aerospace Engineering, State University of New York at Buffalo, Buffalo, United States

Abstract


Numerical simulation of automotive crashes plays an important role in reducing the cost and time taken for predicting the results of a collision. The subject of interior crash protection has received much attention for automobiles than commercial vehicles like heavy trucks. This paper presents a Finite Element simulation of a heavy truck cab for safety analysis of its occupant during frontal collisions. The dashboard of the cab is modelled along with a steering column, floor and a roof top. Two type of acceleration pulses are used to calculate the Head Injury Criteria, Neck Injury and chest injury levels of the occupant. Three different scenarios of occupant namely without seatbelt, with seatbelt, and with both airbag and seatbelt are detailed. The results of simulation have demonstrated that the use of safety restraints has reduced the occupants injury to considerable levels.

Keywords


Heavy Truck, Finite Element Analysis, Occupant Safety Analysis, Head Injury Criteria, Neck Injury Criteria.



DOI: https://doi.org/10.4273/ijvss.2.2.02