An Advanced Thorax-Shoulder Design for the THOR Dummy
Other conference contribution, 2013
Thoracic injuries are one of the main causes of fatally
and severely injured casualties in car crashes.
Advances in restraint system technology and airbags
may be needed to address this problem; however, the
crash test dummies available today for studying these
injuries have limitations that prevent them from
being able to demonstrate the benefits of such
innovations. THORAX-FP7 was a collaborative
medium scale project under the European Seventh
Framework. It focused on the mitigation and
prevention of thoracic injuries through an improved
understanding of the thoracic injury mechanisms and
the implementation of this understanding in an
updated design for the thorax-shoulder complex of
the THOR dummy. The updated dummy should
enable the design and evaluation of advanced
restraint systems for a wide variety (gender, age and
size) of car occupants.
The hardware development involved five steps:
1) Identification of the dominant thoracic injury types
from field data, 2) Specification of biomechanical
requirements, 3) Identification of injury parameters
and necessary instrumentation, 4) Dummy hardware
development and 5) Evaluation of the demonstrator
dummy.
The activities resulted in the definition of new
biofidelity and instrumentation requirements for an
updated thorax-shoulder complex. Prototype versions
were realised and implemented in three THOR
dummies for biomechanical evaluation testing. This
paper documents the hardware developments and
biomechanical evaluation testing carried out.