TY  - CONF
A1  - Eggers, Andre
A1  - Adolph, Thorsten
T1  - Evaluation of the thoracic deflection measurement system "RibEye" in the Hybrid III 50% in frontal sled test
N2  - Thoracic injury is one of the predominant types of severe injuries in frontal accidents. The assessment of the injury risk to the thorax in the current frontal impact test procedures is based on the uni-axial chest deflection measured in the dummy Hybrid III. Several studies have shown that criteria based on the linear chest potentiometer are not sensitive enough to distinguish between different restraint systems, and cannot indicate asymmetric chest loading, which has been shown to correlate to increased injury risk. Furthermore, the measurement is sensitive to belt position on the dummy chest. The objective of this study was to evaluate the optical multipoint chest deflection measurement system "RibEye" in frontal impact sled tests. Therefore the sensitivity of the RibEyesystem to different restraint system parameters was investigated. Furthermore, the issue of signal drop out at the 6 th rib was investigated in this study.A series of sled tests were conducted with the RibEye system in the Hybrid III 50%. The sled environment consisted of a rigid seat and a standard production three-point seat belt system. Rib deflections were recorded with the RibEye system and additionally with the standard chest potentiometer. The tests were carried out at crash pulses of two different velocities (30 km/h and 64 km/h). The tests were conducted with different belt routing to investigate the sensitivity of chest deflection measurements to belt position on the dummy chest. Furthermore, different restraint system parameters were investigated (force limiter level, with or without pretensioning) to evaluate if the RibEye measurements provide additional information to distinguish between restraint system configurations . The results showed that with the RibEye system it was possible to identify the effect of belt routing in more detail. The chest deflections measured with the standard chest potentiometer as well as the maximum deflection measured by RibEye allowed the distinction to be made between different force limiter levels. The RibEye system was also able to clearly show the asymmetric deflection of the rib cage due to belt loading. In some configurations, differences of more than 15 mm were observed between the left and side areas of the chest. Furthermore, the abdomen insert was identified as source of the problem of signal drop out at the 6th rib. Possible solutions are discussed. In conclusion, the RibEye system provided valuable additional information regarding the assessment of restraint systems. It has the potential to enable the evaluation of thoracic injury risk due to asymmetric loading. Further investigations with the RibEye should be extended to tests in a vehicle environment, which include a vehicle seat and other restraint system components such as an airbag.
KW  - Anfahrversuch
KW  - Aufprallschlitten
KW  - Brustkorb
KW  - Deutschland
KW  - Dummy
KW  - Frontalzusammenstoß
KW  - Konferenz
KW  - Messgerät
KW  - Messung
KW  - Rippe (menschl)
KW  - Sicherheitsgurt
KW  - Verformung
KW  - Zusammendrückung
KW  - Anthropometric dummy
KW  - Apparatus (measurement)
KW  - Compression
KW  - Conference
KW  - Deformation
KW  - Germany
KW  - Head on collision
KW  - Impact sled
KW  - Impact test (veh)
KW  - Measurement
KW  - Safety belt
KW  - Thorax
Y1  - 2011
UR  - https://bast.opus.hbz-nrw.de/frontdoor/index/index/docId/708
N1  - Volltext: http://www-nrd.nhtsa.dot.gov/pdf/esv/esv22/22ESV-000190.pdf
ER  -