Vibration Response Localization of Bladed Disk with Pre-Twist Mistuning

Ai Lun Wang; Xu Hui Cao

doi:10.4028/www.scientific.net/AMM.152-154.1071

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The Design and Implementation for a Monitoring & Controlling System Based on 3-Teles Technology and Visual Interface
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Simulation Analysis on Wearing Quantity of Marine Low-Speed Diesel Engine’s Piston Ring
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Experimental Study of the Impact of a Strong Underwater Shock Wave on a Concrete Dam
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Vibration Response Localization of Bladed Disk with Pre-Twist Mistuning
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Vibration Analysis of Nonlinear Isolator’s Characteristics by ADAMS
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Selection and Analysis of Parameters in Model Test of Ice Breaking by Air Cushion Vehicle
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Design and Simulation of Fully Integrated Micro Electromagnetic Vibration Energy Harvester
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Whisper Denoising in Joint Time-Frequency Domain Based on Real-Valued Discrete Gabor Transform
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 152-154Vibration Response Localization of Bladed Disk...

Vibration Response Localization of Bladed Disk with Pre-Twist Mistuning

Abstract:

A new mistuning form, pre-twist mistuning was found in the bladed disk based on the engineering practice. Based on a continuous parameter model of bladed disk, the characteristics of bladed disk with pre-twist mistuning and natural parameters mistuning, including stiffness mistuning, mass mistuning and damping mistuning were compared and analyzed, and the effect of pre-twist mistuning on the vibration response localization of bladed disk was researched. The result shows that pre-twist mistuning can lead vibration response localization to bladed disk as well as natural parameters mistuning. The degree of vibration response localization caused by force mistuning is comparative with the natural parameters mistuning. Compared with natural parameters mistuning, the pre-twist mistuning could not change the natural characteristics of bladed disk. As a result, the pre-twist mistuning can not be detected by traditional method, such as the frequency test. The result not only completed the research content of bladed disk, but also conducted the design and manufacture of bladed disk.