A New Airbag Modeling Using a Sphere and a Torus and the Occupant Analysis in the Out-of-position

구와 원환체를 이용한 에어백의 모델링 및 비정상위치시의 승객 거동 해석

  • 임재문 (한양대학교 대학원 기계설계학과) ;
  • 김창환 (현대자동차 승용제품개발 제2연구소) ;
  • 박경진 (한양대학교 공학대학 기계공학과)
  • Published : 1996.01.01

Abstract

The airbag system is known to be extremely efficient for the protection in an automobile crash. The performance of the airbag system is evaluated by real tests. However, the test is very difficult and expensive. Therefore, the computational simulations are carried out with low cost. The airbag analysis is included in the anlysis of the full-car crashworthiness. The behavior of the airbag can be predicted by a thermodynamic analysis. The contact force between the occupant and the airbag is calculated from the contact volume and the pressure in the airbag. The injury rate is evaluated from the contact force and the acceleration of dummies. So far, the contact is defined after the airgag is fully inflated. In many cases, the occupant is seated in the out-of-position and the contact can happen during the inflation process. A new algorithm has been developed for the out-of-position. To describe the inflation process precisely, the airbag is defined by a sphere and a torus. The injury is evaluated for the contact happened at any time. The developed algorithm is coded and interfaced with an existing software in the public domain. The full-car modeling is adopted from the previous study which is tuned for the regular position and real tests. Numerical experimentation have been carried out with a couple of dummies in the out-of-position and the injury processes are analyzed.

Keywords

References

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