AbstractIn this paper, a collocation–based stochastic model is proposed to analysis mistuned bladed–rotors with geometrical parameter uncertainties. The uncertain parameters are approximated by the Karhunen-Loe‘ve expansion with predefined correlation functions. The generalized polynomial chaos (gPC) expansion possessing random orthogonal basis is served as uncertain dynamic responses. A set of collocation points are generated from the roots of higher order random polynomial basis and the whole FEM model of the rotor is executed on each point to estimate the dynamic responses. These estimations then are used to calculate the coefficients of the gPC expansions. The most attractive feature of the method is that only multiple solutions of the ...
Probabilistic assessment of the maximum blade response on a mistuned rotor disk is performed using t...
International audienceThis paper deals with the dynamical analysis and uncertainty quantification of...
International audienceThis work is devoted to the robust analysis of the effects of geometric nonlin...
International audienceThe present research concerns the dynamical mistuning analysis of a rotating b...
National audienceThe mistuning of blades is frequently the cause of spatial localizations for the dy...
International audienceA new method for vibration analysis of mistuned bladed disks is presented. The...
Statistical inhomogeneity of material properties, variations in nominal geometry, manufacturing tole...
International audienceThe present research concerns the dynamical analysis of mistuned rotating blad...
International audienceIn this research, we are interested in the dynamical analysis of a mistuned in...
This work investigates how uncertainties in the balancing weights are propagating into the vibration...
International audienceThe vibrational behavior of bladed-disks is known to be particularly complex i...
The analyzed problem is the identification of fault parameters taking into account the stochastic ch...
International audienceThis paper proposes to use a polynomial chaos expansion approach to compute st...
A computational finite element based technique is proposed for developing a stochastic reduced order...
SAFRAN Turbomeca is also acknowledged for giving permission to publish this work.International audie...
Probabilistic assessment of the maximum blade response on a mistuned rotor disk is performed using t...
International audienceThis paper deals with the dynamical analysis and uncertainty quantification of...
International audienceThis work is devoted to the robust analysis of the effects of geometric nonlin...
International audienceThe present research concerns the dynamical mistuning analysis of a rotating b...
National audienceThe mistuning of blades is frequently the cause of spatial localizations for the dy...
International audienceA new method for vibration analysis of mistuned bladed disks is presented. The...
Statistical inhomogeneity of material properties, variations in nominal geometry, manufacturing tole...
International audienceThe present research concerns the dynamical analysis of mistuned rotating blad...
International audienceIn this research, we are interested in the dynamical analysis of a mistuned in...
This work investigates how uncertainties in the balancing weights are propagating into the vibration...
International audienceThe vibrational behavior of bladed-disks is known to be particularly complex i...
The analyzed problem is the identification of fault parameters taking into account the stochastic ch...
International audienceThis paper proposes to use a polynomial chaos expansion approach to compute st...
A computational finite element based technique is proposed for developing a stochastic reduced order...
SAFRAN Turbomeca is also acknowledged for giving permission to publish this work.International audie...
Probabilistic assessment of the maximum blade response on a mistuned rotor disk is performed using t...
International audienceThis paper deals with the dynamical analysis and uncertainty quantification of...
International audienceThis work is devoted to the robust analysis of the effects of geometric nonlin...