Effect of Cracked Blade Distribution on Vibration Characteristics of Centrifugal Impeller

Gang Cheng; Jian Feng Li; Wei Qiang Wang; Jie Sun

doi:10.4028/www.scientific.net/AMM.457-458.556

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 457-458Effect of Cracked Blade Distribution on Vibration...

Effect of Cracked Blade Distribution on Vibration Characteristics of Centrifugal Impeller

Abstract:

In this paper, the finite element analysis is made to the modal analysis of the impeller, a finite element model of a impeller with cracks was established. This paper presents results of the modal of the compressor blade subjected to centrifugal force and aerodynamic equilibrium pressure. In this analysis, the numerical models without defects and also with cracks were defined. The simulation results showed that the centrifugal force due to rotational speed can greatly influence the frequency of the impeller. The distribution of two cracked blades effect the natural frequence of the impeller. When two cracked blades locate in the interval position, the increasing value of frequence is maximum. When the two cracked blades interval 150°, the increasing value of frequence is minimum. It provides a basis for modal calculation of the impeller.