Transactions of the Korean Society of Mechanical Engineers A (대한기계학회논문집A)

The Korean Society of Mechanical Engineers (대한기계학회)
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Development of a finite Element Model for Studying the Occupant Behavior and Injury Coefficients of a Large-sized Truck

대형트럭 승객거동과 상해치 해석을 위한 유한요소모델의 개발

  • O, Jae-Yun (Mechatronics Research Center, Dept.of Mechanical Engineering, Chonbuk National University) ;
  • Kim, Hak-Deok (Dept.of Precision Mechanical Engineering, Chonbuk National University) ;
  • Song, Ju-Hyeon
  • 오재윤 (전북대학교 기계공학부, 메카트로닉스연구센터) ;
  • 김학덕 (전북대학교 정밀기계공학과) ;
  • 송주현
  • Published : 2002.08.01
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Abstract

This paper develops a finite element model for studying the occupant behavior and injury cofficients of a large-sized cab-over type truck. Since it does not have a room to absorb collision energy and deformation in front of the passenger compartment the deformation is directly transmitted to the passenger compartment. Moreover, since its steering column is attached on the frame, severe deformation of the frame directly affects on the steering wheel's movement. Therefore, if the occupant behavior and injury coefficients analysis is performed using a finite element model developed based on a sled test, it is very difficult to expect acquiring satisfactory results. Thus, the finite element model developing in this paper is based on the frontal crash test in order to overcome the inherent problems of the sled test based model commonly used in the passenger car. The occupant behavior and injury coefficients analysis is performed using PAM-CRASH installed in super-computer SP2. In order to validate the reliability of the developed finite element model, a frontal crash test is carried out according to a test method used fur developing truck occupant's secondary safety system in european community and japan. That is, test vehicle's collision direction is vertical to the rigid barrier and collision velocity is 45kph. Thus, measured vehicle pulses at the lower parts of the left and right B-pilla., dummy chest and head deceleration profiles, HIC(head injury criterial) and CA(chest acceleration) values, and dummy behavior from the frontal crash test are compared to the analysis results to validate reliability of the developed model.

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References

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Cited by

  1. Simulation of Rollover Crashes and Passenger Injury Assessment for a Wheeled Armored Vehicle vol.38, pp.4, 2014, https://doi.org/10.3795/KSME-A.2014.38.4.385