Wyniki wyszukiwania - BazTech

1

Application of multibody simulation for semitrailer optimization

Korta J., Martowicz A., Gallina A., Uhl T.

Journal of KONES

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2012

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Vol. 19, No. 1

171-182

EN

This paper presents an approach of optimization of a truck semitrailer suspension system, with utilization of multibody model; its purpose was to find the best values of operational parameters: stiffness and damping factors, in order to minimize the disadvantageous influence of force distribution in the high risk areas, where preceding strength analysis has pointed out dangerous load values. The model contains elements of two different types: flexible and rigid bodies, in purpose of increasing the accuracy level of conducted numerical calculations. A number of simulations with different parameters and under different load cases have been carried out, combined with a parametric and structural sensitivity analysis, what has enabled an estimation of individual factors influencing particular forces that have been the objectives of optimization procedure. The stiffness and damping coefficients of the construction suspension system have been adjusted by applying metamodeling techniques. Basing on the chosen design of experiment results, this procedure allows for an approximation of the behaviour of the analysed construction in the whole design space. In this process, two different approaches have been used: Kriging and polynomial regression, and both have been compared to the simulations results. Finally, using a desirability function, the most optimal solution has been found.

2

Simulation and optimization of heavy-duty semitrailer dynamic model

Korta J., Martowicz A., Gallina A., Uhl T.

Journal of KONBiN

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2011

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No. 4 (20)

85--106

EN

This paper presents an optimization of a multibody truck semitrailer model; its purpose was to find the best values of suspension parameters in order to minimize the disadvantageous influence of force distribution in the high risk areas. A number of simulations with different parameters and under different load cases have been carried out, combined with a parametric and structural sensitivity analysis, and in this way individual factors influencing particular forces have been estimated. The stiffness and damping coefficients of the construction suspension system have been adjusted by applying metamodeling techniques, using two different approaches: Kriging and polynomial regression. Finally, using a desirability function, the most optimal solution has been found.

PL

Artykuł przedstawia proces optymalizacji systemu zawieszenia wirtualnego modelu dynamicznego naczepy samochodowej, przeznaczonej dla pojazdów transportu ciężkiego. Celem podjętych prób było znalezienie wartości charakteryzujących odpowiedź układu na wymuszenia dynamiczne, minimalizujących ich niekorzystny wpływ na punkty konstrukcyjne, będące narażone na nadmierne obciążenia. Przeprowadzono szereg symulacji numerycznych, w oparciu o wyniki których określono wrażliwość systemu na zmieniające się parametry konstrukcyjne oraz użytkowe. Optymalne wartości współczynników tłumienia oraz sztywności badanego systemu obliczono z wykorzystaniem konwersji zagadnienia na monokryterialny problem decyzyjny, w oparciu o skonstruowane dwiema metodami (tj. Kriging i regresją wielomianową) powierzchnie odpowiedzi.

3

Optimal segmented dampers configuration for a laminar body carrying variable payload

Lipiński K.

Vibrations in Physical Systems

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2006

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Vol. 22

229--235