Probabilistic assessment of the maximum blade response on a mistuned rotor disk is performed using the computer code NESSUS. The uncertainties in natural frequency, excitation frequency, amplitude of excitation and damping are included to obtain the cumulative distribution function (CDF) of blade responses. Advanced mean value first order analysis is used to compute CDF. The sensitivities of different random variables are identified. Effect of the number of blades on a rotor on mistuning is evaluated. It is shown that the uncertainties associated with the forcing function parameters have significant effect on the response distribution of the bladed rotor
An improved spatial statistical approach and probabilistic prediction method for mistuned integrally...
This document summarizes the initial results from a research effort at the NASA Glenn Research Cente...
International audienceThe vibrational behavior of bladed-disks is known to be particularly complex i...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76508/1/AIAA-2005-1990-137.pd
Small deviations between turbine blades exist due to manufacturing tolerances or material inhomogene...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76262/1/AIAA-2006-1964-276.pd
Small deviations between turbine blades exist due to manufacturing tolerances or material inhomogene...
Small mistuning can cause large, catastrophic changes in blade vibrational response whereby the ampl...
National audienceThe mistuning of blades is frequently the cause of spatial localizations for the dy...
The effects of actual variations, also called uncertainties, in geometry and material properties on ...
The adverse effects of small, random structural irregularities among the blades, called mistuning, c...
To quantify the uncertainties associated with the geometry and material properties of a Space Shuttl...
International audienceThe present research concerns the dynamical mistuning analysis of a rotating b...
A stochastic measure of sensitivity is developed in order to predict the effects of small random bla...
The unavoidable existence of small differences between nominally identical sectors of bladed disks, ...
An improved spatial statistical approach and probabilistic prediction method for mistuned integrally...
This document summarizes the initial results from a research effort at the NASA Glenn Research Cente...
International audienceThe vibrational behavior of bladed-disks is known to be particularly complex i...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76508/1/AIAA-2005-1990-137.pd
Small deviations between turbine blades exist due to manufacturing tolerances or material inhomogene...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76262/1/AIAA-2006-1964-276.pd
Small deviations between turbine blades exist due to manufacturing tolerances or material inhomogene...
Small mistuning can cause large, catastrophic changes in blade vibrational response whereby the ampl...
National audienceThe mistuning of blades is frequently the cause of spatial localizations for the dy...
The effects of actual variations, also called uncertainties, in geometry and material properties on ...
The adverse effects of small, random structural irregularities among the blades, called mistuning, c...
To quantify the uncertainties associated with the geometry and material properties of a Space Shuttl...
International audienceThe present research concerns the dynamical mistuning analysis of a rotating b...
A stochastic measure of sensitivity is developed in order to predict the effects of small random bla...
The unavoidable existence of small differences between nominally identical sectors of bladed disks, ...
An improved spatial statistical approach and probabilistic prediction method for mistuned integrally...
This document summarizes the initial results from a research effort at the NASA Glenn Research Cente...
International audienceThe vibrational behavior of bladed-disks is known to be particularly complex i...