@article{ref1, title="Improved theory behaviour of the eurosid and effects on thorax injury assessment, on the basis of pendulum impacts", journal="Proceedings: International Technical Conference on the Enhanced Safety of Vehicles", year="2001", author="Beusenberg, Marc C. and Keown, M. and Yoganandan, Narayan A.", volume="2001", number="", pages="8 p.-8 p.", abstract="In 1989, the EUROSID-1 was accepted in the European regulation ECE-R95. After a steady period of use, an upgraded version of this dummy: ES-2 is now considered as a step towards harmonization of side impact occupant regulations. The upgrades to the dummy include, amongst others, a modification of its torso back plate and a change in rib module guidance (piston-cylinder), especially to overcome anomalous rib deflection responses referred to as "flat-top". Presented here are results of lateral and oblique pendulum tests, conducted on the EUROSID-1 and ES-2 to verify the modified torso back plate and to study the responses of three proposed rib module designs for ES-2. Particularly, rib deflections, rib VC responses, and thorax force-deflection responses are analyzed. The current study primarily addresses sensitivity of the ES-2 thorax to oblique loading. The risk of anomalous rib deflection responses as observed in full-scale vehicle crash tests can be greatly reduced by using a modified torso back plate and by changing the piston-cylinder. Results presented here show that the prototype "needle bearing type ribs", developed jointly by TNO and FTSS, eliminates the risk of flat-top in the pendulum test conditions employed in this stndy. The adoption of this rib design in ES-2 may, however, require further tuning of the damping in order to meet biofidelity requirements, such that injury risk on the basis of VC can be assessed appropriately.

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