Using CAE to Guide Passenger Airbag Door Design for Optimal Head Impact Performance

970772

02/24/1997

Event
SAE International Congress and Exposition
Authors Abstract
Content
The increased focus on occupant protection by automobile manufacturers combined with incessant consumer demand for safety features such as dual airbags has posed design engineers with major challenges in the field of Instrument Panel (IP) design. Typically, airbags are designed to deploy when the speed of the automobile is above 13 mph in a frontal impact. The airbag door should meet head impact requirements for unbelted occupants involved in low speed impacts (<15mph) when airbags are not deployed. This paper describes how computer aided engineering (CAE) simulation techniques were used in improving the design of the passenger airbag door of a full size van for head impact performance. Fewer tests were conducted primarily for validation, which resulted in significantly less prototypes, costs and time.
Meta TagsDetails
DOI
https://doi.org/10.4271/970772
Pages
6
Citation
Kulkarni, K., Kuschinsky, S., and Thyagarajan, R., "Using CAE to Guide Passenger Airbag Door Design for Optimal Head Impact Performance," SAE Technical Paper 970772, 1997, https://doi.org/10.4271/970772.
Additional Details
Publisher
Published
Feb 24, 1997
Product Code
970772
Content Type
Technical Paper
Language
English