Experimental Mistuning Identification in Bladed Disks Using a Component-Mode-Based Reduced-Order Model

John A. Judge; Christophe Pierre; Steven L. Ceccio

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Experimental Mistuning Identification in Bladed Disks Using a Component-Mode-Based Reduced-Order Model

机译：刀片式磁盘中基于组件模式的降序模型的实验性失调识别

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This paper presents two methods for identifying blade mistuning using measurements of the vibration response of an entire bladed disk. These methods are especially suitable to blisks, in which individual blades cannot be easily isolated. The first method makes use of measurements of the free response normal modes of the system, whereas the second is an extension of the first to make use of steady-state forced response measurements. For both methods, the variations in blade modal stiffness (the natural frequencies of the blades themselves) are calculated by converting a small set of measured blade vibration amplitudes into coordinates in a highly reduced-order model in which the blade modal stiffnesses appear explicitly. The effectiveness of both methods is demonstrated experimentally.

机译：本文介绍了两种通过测量整个叶片盘的振动响应来识别叶片不平衡的方法。这些方法特别适用于无法轻易隔离单个叶片的叶栅。第一种方法利用对系统的自由响应正常模式的测量，而第二种方法是对第一种方法的扩展，以利用稳态强制响应测量。对于这两种方法，叶片模态刚度的变化（叶片本身的固有频率）都是通过将一小组测得的叶片振动幅度转换成高度降阶模型中的坐标来计算的，在该模型中，叶片模态刚度明确地出现。两种方法的有效性已通过实验证明。

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来源
《AIAA Journal》 |2009年第5期|1277-1287|共11页
作者
John A. Judge; Christophe Pierre; Steven L. Ceccio;
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作者单位

Catholic University of America, Washington, D. C. 20064;

McGill University, Montreal, Quebec H3A 2K6, Canada;

University of Michigan, Ann Arbor, Michigan 48109;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
A: -ω~2M + K or -ω~2M + iωC + (1 + iG)K; C: viscous damping matrix; F: eal-values Fourier matrix; G: tructural damping coefficient; I: dentity matrix; K: stiffness matrix; et al;

机译：A：[-ω〜2M + K]或[-ω〜2M +iωC+（1 + iG）K];C：粘性阻尼矩阵;F：极值傅立叶矩阵;G：结构阻尼系数;I：身份矩阵;K：刚度矩阵;等;

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专利

1. Component-Mode-Based Reduced Order Modeling Techniques for Mistuned Bladed Disks-Part I: Theoretical Models [J] . R.Bladh, M.P.Castanier, C.Pierre Journal of Engineering for Gas Turbines and Power . 2001,第1期

机译：误调刀片磁盘的基于组件模式的降序建模技术-第一部分：理论模型
2. Component-Mode-Based Reduced Order Modeling Techniques for Mistuned Bladed Disks-Part II: Application [J] . R.Bladh, M.P.Castanier, C.Pierre Journal of Engineering for Gas Turbines and Power . 2001,第1期

机译：误导刀片式磁盘的基于组件模式的降序建模技术-第二部分：应用程序
3. Geometric Mistuning Reduced-Order Models for Integrally Bladed Rotors With Mistuned Disk-Blade Boundaries [J] . Joseph A. Beck, Jeffrey M. Brown, Alex A. Kaszynski, Journal of turbomachinery . 2015,第7期

机译：具有叶片叶片边界不正确的整体叶片转子的几何失谐降阶模型
4. COMPONENT-MODE-BASED REDUCED ORDER MODELING TECHNIQUES FOR MISTUNED BLADED DISKS, PART I: THEORETICAL MODELS [C] . Ronnie Bladh, Matthew P. Castanier, Christophe Pierre ASME TURBO EXPO . 2000

机译：基于组件模式的减少订单模拟技术，用于迷失的叶片磁盘，第一部分：理论模型
5. Reduced-Order Models of Bladed Disks and Vane with Mistuning and Frictionally Constrained Ring Damper. [D] . Baek, Seunghun. 2016

机译：带有错误调整和摩擦约束的环阻尼器的叶片盘和叶片的降序模型。
6. Experimental Investigation on a Bladed Disk with Traveling Wave Excitation [O] . Luigi Carassale, Elena Rizzetto 2021

机译：带波浪激励的叶片磁盘的实验研究
7. Component-Mode-Based Reduced Order Modeling Techniques for Mistuned Bladed Disks—Part II: Application [O] . R. Bladh, M. P. Castanier, C. Pierre 2000

机译：基于组件模式的减少阶票价建模技术，用于雾化叶片 - 第II部分：应用
8. Laboratory for System Identification of Mistuning in Integrally Bladed Disks [R] . Griffin, J. H. 2004

机译：集成叶片磁盘系统识别实验室

Experimental Mistuning Identification in Bladed Disks Using a Component-Mode-Based Reduced-Order Model

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