1. Comparative Studies of Surrogate Models for Response Analysis of Mistuned Bladed Disks
- Author
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Linlin Wang, Shiyuan Deng, Jianyao Yao, Jianqiang Xin, and Ning Hu
- Subjects
Computer science ,020209 energy ,Response analysis ,02 engineering and technology ,Mistuning ,01 natural sciences ,010305 fluids & plasmas ,Highly sensitive ,Computational Mathematics ,Surrogate model ,0103 physical sciences ,Sampling process ,0202 electrical engineering, electronic engineering, information engineering ,Computer Science (miscellaneous) ,Biological system - Abstract
The forced responses of bladed disks are highly sensitive to inevitable random mistuning. Considerable computational efforts are required for the sampling process to assess the statistical vibration properties of mistuned bladed disks. Therefore, efficient surrogate models are preferred to accelerate the process for probabilistic analysis. In this paper, four surrogate models are utilized to construct the relation between random mistuning and forced response amplitudes, which are polynomial chaos expansion (PCE), response surface method (RSM), artificial neural networks (ANN) and Kriging interpolation, respectively. A bladed disk with 2-degrees-of-freedom (2-DOF) each sector is used to validate the effectiveness of the surrogate models. The effects of number of training samples on the surrogate model accuracy are discussed. The responses results of one blade (single output) and maximum response of all blades (multi-output) indicate that PCE and Kriging interpolation could yield accurate and stable predictions of the statistical characteristics of the forced responses. PCE is recommended for the mistuned response predictions due to its accuracy and efficiency.
- Published
- 2020