In order to improve the product development efficiency, nowadays, the usage of simulation tools has become almost mandatory. The number of different settings, tested during the suspension tuning, for example, can grow reasonably in the same amount of time. Such a situation would be impossible experimentally. In this context, this work presents a truck model carried out in a multi-body environment (Adams) in order to evaluate aspects of vehicle ride comfort.The model was created with all project information available. Typical tracks, used for ride subjective evaluation, are modeled as track profiles and added to the multi-body model. The model is then validated against experimental data. The measurement setup used as well as the test conditions are fully detailed, as well as the comparison of the data acquire with the simulation results.Once with the validated model, it can be explored in order to extract all information required for a robust project. In this way, a DOE is carried out so that the main parameters of ride are identified and an optimized design is possible to achieve.The methodology has been used in order to achieve a best setup in terms of ride comfort, which has been implemented in the real vehicle and measured in order to check the final result. The final configuration has improved the overall vehicle ride around 30% while minimizing the amount of physical test, in other words, reducing the development cost.
Trucks Ride Simulation - Tuning Optimization
Sae Technical Papers
SAE Brasil 2010 Congress and Exhibit ; 2010
2010-10-06
Aufsatz (Konferenz)
Englisch
Trucks Ride Simulation - Tuning Optimization
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