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Journal Article

Citation

Viano DC, Parenteau CS. Traffic Injury Prev. 2016; 17(5): 524-529.

Affiliation

ProBiomechanics LLC , 265 Warrington Rd., Bloomfield Hills , MI 48304-2952.

Copyright

(Copyright © 2016, Informa - Taylor and Francis Group)

DOI

10.1080/15389588.2015.1120295

PMID

26700934

Abstract

OBJECTIVE: IIHS high-hooded side impacts were analyzed for matched vehicle tests with and without side airbags. The comparison provides a measure of the effectiveness of side airbags in reducing biomechanical responses for near-side occupants struck by trucks, SUVs and vans at 50 km/h.

METHOD: The IIHS Moving Deformable Barrier (MDB) uses a high-hooded barrier face. It weighs 1,500 kg and impacts the driver-side perpendicular to the vehicle at 50 km/h. SID-IIs dummies are placed in the driver and left 2(nd) row seats. They represent 5(th) female occupants. IIHS tests were reviewed for matches with one test with a side airbag and another without it in 2003-l2007 MY vehicles. Four side airbag systems were evaluated: 1) curtain and torso side airbags, 2) head and torso side airbag, 3) curtain side airbag and 4) torso side airbag. There were 24 matched IIHS vehicle tests: 13 with and without a curtain and torso side airbags, 4 with and without a head and torso side airbag, 5 with and without a side curtain airbag and 2 with and without a torso airbag. The head, chest and pelvis responses were compared for each match and the average difference was determined across all matches for a type of side airbag.

RESULTS: The average reduction in HIC was 68% ± 16% (p < 0.001) with curtain and torso side airbags compared to the HIC without side airbags. The average HIC was 296 with curtain and torso side airbags and was 1199 without them. The viscous response (VC) was reduced 54% ± 19% (p < 0.005) with curtain and torso side airbags. The combined acetabulum and ilium force (7% ± 15%) and pelvic acceleration (-2% ± 17%) were essentially similar in the matched tests. The head and torso side airbag reduced HIC by 42% ± 30% (p < 0.1) and VC by 32% ± 26% compared to vehicles without a side airbag. The average HIC was 397 with the side head and torso airbag compared to 729 without it. The curtain airbag and torso airbag only showed lower head responses but essentially no difference in the chest and pelvis responses.

CONCLUSION: The curtain and torso side airbags effectively reduced biomechanical responses for the head and chest in 50 km/h side impacts with a high-hooded deformable barrier. The reductions in the IIHS tests are directionally the same as estimated fatality reductions in field crashes reported by NHTSA for side airbags.


Language: en

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