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The Liteflex™ composite spring has been manufactured by Delphi Chassis Systems, a division of Delphi Automotive Systems, since 1981 when it was introduced on the Chevrolet Corvette. In its early history, applications concentrated on passenger cars and vans. Over the past decade, however, composite engineering development has also focused on heavy duty suspension applications for tractors and trailers. The results include a Liteflex™ trailer suspension spring, a Liteflex™ tractor steer axle spring a Liteflex™ tractor drive axle spring, and a Litecast™ suspension link. A typical tandem axle trailer suspension incorporates four 3-leaf steel springs. Replacing each with a 13 kg lighter Liteflex™ spring offers a weight savings of 52 kg (115 lb.). This includes the assembly and mounting hardware. For the tractor, replacing two 2-leaf steel steer axle springs with Liteflex™ springs offers a combined weight savings of 55 kg (120 lb.).

Global warming is a climate phenomenon with world-wide ecological, economic and social impact which calls for strong measures in reducing automotive fuel consumption and thus CO2 emissions. In this regard, turbocharging and the associated designing of the air path of the engine are key technologies in elaborating more efficient and downsized engines. Engine performance simulation or development, parameterization and testing of model-based air path control strategies require adequate performance maps characterizing the working behavior of turbochargers. The working behavior is typically identified on test rig which is expensive in terms of costs and time required. Hence, the objective of the research project “virtual Exhaust Gas Turbocharger” (vEGTC) is an alternative approach which considers a physical modeled vEGTC to allow a founded prediction of efficiency, pressure rise as well as pressure losses of an arbitrary turbocharger with known geometry.