A method for static analysis of multistage cyclic structure based on group theory and two-stage Guyan reduction

IF 4.4 2区 工程技术 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
Dongdong Xie , Yonggang Zheng , Bo Wang , Shengli Xu , Yongfeng Sui , Qiang Gao
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引用次数: 0

Abstract

Considering the non-negligible multistage coupling effect of stages in multi-stage cyclic structure, such as bladed disk systems in aircraft turbo engines, a method is established for the static analysis of multistage cyclic structures. A special coordinate system is established based on the structural characteristics of the multistage cyclic structure. In this coordinate system, the sectors of a given disk have the same position; therefore, the stiffness matrices of any sector of the same disk are identical. Then, based on a two-stage Guyan reduction, the internal degrees of freedom (DOFs) of the disks are condensed and the number of DOFs corresponding to the full structure is reduced to that corresponding to the interdisk structures. Furthermore, group theory and the properties of the block circulant matrix are used to significantly reduce the computational cost of the two-stage Guyan reduction. Compared to the analysis of the full finite element model, the proposed method introduces no approximation. The main advantages of the proposed method are its high accuracy, high efficiency, and less demand on computational resources. Numerical examples demonstrate the accuracy and efficiency of the proposed method.
基于群论和两阶段圭安还原法的多级循环结构静态分析方法
考虑到多级循环结构(如飞机涡轮发动机中的叶盘系统)中各级不可忽略的多级耦合效应,建立了多级循环结构的静力分析方法。根据多级循环结构的结构特点,建立了一个特殊的坐标系。在该坐标系中,给定圆盘的扇区具有相同的位置;因此,同一圆盘的任何扇区的刚度矩阵都是相同的。然后,根据两阶段吉安缩减法,对圆盘的内部自由度(DOFs)进行压缩,将与完整结构相对应的 DOFs 数量减少到与盘间结构相对应的 DOFs 数量。此外,利用群论和分块圆周矩阵的特性,可以大大降低两阶段 Guyan 简化的计算成本。与全有限元模型分析相比,所提出的方法不引入近似值。所提方法的主要优点是精度高、效率高、对计算资源的需求少。数值实例证明了所提方法的准确性和高效性。
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来源期刊
Computers & Structures
Computers & Structures 工程技术-工程:土木
CiteScore
8.80
自引率
6.40%
发文量
122
审稿时长
33 days
期刊介绍: Computers & Structures publishes advances in the development and use of computational methods for the solution of problems in engineering and the sciences. The range of appropriate contributions is wide, and includes papers on establishing appropriate mathematical models and their numerical solution in all areas of mechanics. The journal also includes articles that present a substantial review of a field in the topics of the journal.
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