基于实测数据的航空发动机转子叶尖装配间隙预测

Wangqian Deng; Rong Mo; Kai Chen; Xin Feng; Huateng Xia; Huibin Sun; Zhiyong Chang

doi:10.13224/j.cnki.jasp.20210255

基于实测数据的航空发动机转子叶尖装配间隙预测

Wangqian Deng, Rong Mo, Kai Chen, Xin Feng, Huateng Xia, Huibin Sun, Zhiyong Chang

机电学院

科研成果: 期刊稿件 › 文章 › 同行评审

10 引用（Scopus）

摘要

Taking the multi-stage rotor and stator assembly process as the research object, and based on the spatial geometric transformation theory and the shape and position tolerance theory, a multi-stage rotor blade tip clearance prediction method was proposed. Specifically, the rotor and stator system was divided into three subsystems: rotor, stator and support. The submodels of assembly deviation were established for each subsystem. The coordinates of each sub-model were unified. The measured deviation data of fitting surface were taken as the input to calculate the rotor blade tip coordinates and casing coordinates at the same axial position, so as to calculate the rotor blade tip clearance. The test results showed that the prediction model could accurately predict the rotor blade tip clearance, and the maximum relative error of prediction was 11%, thus providing a reference for the assembly quality analysis.

投稿的翻译标题	Prediction of rotor blade tip assembly clearance based on measured data for aero-engine
源语言	繁体中文
页（从-至）	1273-1283
页数	11
期刊	Hangkong Dongli Xuebao/Journal of Aerospace Power
卷	37
期	6
DOI	https://doi.org/10.13224/j.cnki.jasp.20210255
出版状态	已出版 - 6月 2022

关键词

areo-engine rotor
blade tip assembly clearance prediction
deviation propagation
measured data
rigid-flexible error coupling

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10.13224/j.cnki.jasp.20210255

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链接到 Scopus 的出版物

引用此

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title = "基于实测数据的航空发动机转子叶尖装配间隙预测",

abstract = "Taking the multi-stage rotor and stator assembly process as the research object, and based on the spatial geometric transformation theory and the shape and position tolerance theory, a multi-stage rotor blade tip clearance prediction method was proposed. Specifically, the rotor and stator system was divided into three subsystems: rotor, stator and support. The submodels of assembly deviation were established for each subsystem. The coordinates of each sub-model were unified. The measured deviation data of fitting surface were taken as the input to calculate the rotor blade tip coordinates and casing coordinates at the same axial position, so as to calculate the rotor blade tip clearance. The test results showed that the prediction model could accurately predict the rotor blade tip clearance, and the maximum relative error of prediction was 11%, thus providing a reference for the assembly quality analysis.",

keywords = "areo-engine rotor, blade tip assembly clearance prediction, deviation propagation, measured data, rigid-flexible error coupling",

author = "Wangqian Deng and Rong Mo and Kai Chen and Xin Feng and Huateng Xia and Huibin Sun and Zhiyong Chang",

year = "2022",

month = jun,

doi = "10.13224/j.cnki.jasp.20210255",

language = "繁体中文",

volume = "37",

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TY - JOUR

T1 - 基于实测数据的航空发动机转子叶尖装配间隙预测

AU - Deng, Wangqian

AU - Mo, Rong

AU - Chen, Kai

AU - Feng, Xin

AU - Xia, Huateng

AU - Sun, Huibin

AU - Chang, Zhiyong

PY - 2022/6

Y1 - 2022/6

N2 - Taking the multi-stage rotor and stator assembly process as the research object, and based on the spatial geometric transformation theory and the shape and position tolerance theory, a multi-stage rotor blade tip clearance prediction method was proposed. Specifically, the rotor and stator system was divided into three subsystems: rotor, stator and support. The submodels of assembly deviation were established for each subsystem. The coordinates of each sub-model were unified. The measured deviation data of fitting surface were taken as the input to calculate the rotor blade tip coordinates and casing coordinates at the same axial position, so as to calculate the rotor blade tip clearance. The test results showed that the prediction model could accurately predict the rotor blade tip clearance, and the maximum relative error of prediction was 11%, thus providing a reference for the assembly quality analysis.

AB - Taking the multi-stage rotor and stator assembly process as the research object, and based on the spatial geometric transformation theory and the shape and position tolerance theory, a multi-stage rotor blade tip clearance prediction method was proposed. Specifically, the rotor and stator system was divided into three subsystems: rotor, stator and support. The submodels of assembly deviation were established for each subsystem. The coordinates of each sub-model were unified. The measured deviation data of fitting surface were taken as the input to calculate the rotor blade tip coordinates and casing coordinates at the same axial position, so as to calculate the rotor blade tip clearance. The test results showed that the prediction model could accurately predict the rotor blade tip clearance, and the maximum relative error of prediction was 11%, thus providing a reference for the assembly quality analysis.

KW - areo-engine rotor

KW - blade tip assembly clearance prediction

KW - deviation propagation

KW - measured data

KW - rigid-flexible error coupling

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U2 - 10.13224/j.cnki.jasp.20210255

DO - 10.13224/j.cnki.jasp.20210255

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JO - Hangkong Dongli Xuebao/Journal of Aerospace Power

JF - Hangkong Dongli Xuebao/Journal of Aerospace Power

IS - 6

ER -

基于实测数据的航空发动机转子叶尖装配间隙预测

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