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IDENTIFYING THE INFLUENCE OF AIRBAG STRUCTURE ON DRIVER INJURY DURING A CRASH USING A DUMMY MODEL.

Authors :
Minh Tien Nguyen
Ngoc Anh Nguyen
Quan Hai Vu
Dat Trong Hoang
Source :
EUREKA: Physics & Engineering; 2024, Issue 4, p52-65, 14p
Publication Year :
2024

Abstract

This study undertakes the analysis of collision scenario using a car model with a dummy and airbags, in the event of a direct collision with a hard wall, one of the necessary studies of passive safety. To describe in detail, the input conditions, a simulation problem of the driver's seat displacements was performed and this displacements data was exported as boundary conditions for the collision simulation. The results simulation crash show that the calculated energy values and simulation results are approximately the same (7.381E+07 and 7.367E+07), energy is converted from kinetic energy into internal energy of the elements. The airbag deployment simulation results are similar to NHTSA's previous research, both in terms of graph shape and maximum value. The impact of the collision incident on the driver is not excessively large, as evidenced by surveys on head (HIC 300), thigh (F 2.8 kN), and neck (F 3.098 kN; T 190 Nm) injuries. However, the study proceeds to further analyze and assess the airbag's structure, examining its influence on these metrics, concluding that changes in the exhaust valve size (increase from 1000 mm2 to 2000 mm2 ) lead to a reduction in the evaluated parameters. These results suggest changes to the airbag structure to enhance driver safety, as well as a simpler simulation model to save analysis time. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
24614254
Issue :
4
Database :
Complementary Index
Journal :
EUREKA: Physics & Engineering
Publication Type :
Academic Journal
Accession number :
178576359
Full Text :
https://doi.org/10.21303/2461-4262.2024.003313