Abstract
This paper reports on the work of computer simulations carried out at Coventry University as part of the European 6th Framework HeliSafe TA project, which considered the potential improvements in occupant safety for civil helicopters. A multi-body systems approach with additional use of finite elements for critical components such as a pilot airbag and the harnesses was adopted in the computer models to simulate helicopter crash/rollover scenarios and to investigate the effectiveness of occupant protection systems deployed during helicopter crash scenarios. ADAMS and Madymo simulations of helicopter impact/rollover events were demonstrated. A cabin/cockpit model of a Bell UH-1D helicopter was developed to replicate the physical crash test setup and a parametric study for the pilot airbag and a range of harness concepts was performed. The use of validated multi-body systems-based cabin/cockpit models has proved to be effective in the development of new restraint system concepts for occupant protection.
Acknowledgements
The results presented here contribute to the European Commission-funded HeliSafe TA project under the 6th Framework programme. The authors wish to record their appreciation to the European Commission and the help and support of the project partners Autoflug (D) (Coordinator), Eurocopter SAS (F), Eurocopter Deutschland (D), PZL Swidnik (PL), SIEMENS Restraint Systems (D), DLR (D), CIDAUT (E), CIRA (I), TNO (NL), Politecnico di Milano (I) and University Delft (NL).