Simulation of High Temperature Thin Film Thermocouple on Engine Blade Surface

Meiju Zhang; Bian Tian; Rong Ma; Manguo Huang; Xiaobo Liang; Jiangjiang Liu; Zhongkai Zhang

doi:10.3233/ATDE221166

Simulation of High Temperature Thin Film Thermocouple on Engine Blade Surface

Meiju Zhang
, Bian Tian
, Rong Ma
, Manguo Huang
, Xiaobo Liang
, Jiangjiang Liu
, Zhongkai Zhang

School of Mechanical Engineering

Beijing Changcheng Aeronautic Measurement and Control Technology Research Institute
Aviation Key Laboratory of Science and Technology on Special Condition Monitoring Sensor Technology
Xi'an Jiaotong University

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

1 Scopus citations

Abstract

In order to avoid the instability flutter of aero-engine blade and prevent the failure of thin film thermocouple caused by the blade in complex environment, the structural strength of the thermocouple on the actual blade surface was studied in this paper. Firstly, based on the 3D scanning of the real blade, the blade model is established after the point cloud graphics. The surface thermocouple model of the blade is established in Solidworks for simulation, and the modal and harmonic response analysis of the blade is simulated. Secondly, the vibration of the curved thin film thermocouple and the stress distribution of the blade under the acceleration shock were studied in Comsol, and the failure weakness was analyzed to avoid the failure of the thin film thermocouple caused by the bending, fracture or shedding of the thin film thermocouple on the blade due to vibration and shock, providing the most suitable thermocouple selection for the engine blade.

Original language	English
Title of host publication	Moving Integrated Product Development to Service Clouds in the Global Economy - Proceedings of the 21st ISPE Inc. International Conference on Concurrent Engineering, CE 2014
Editors	Jinyang Xu
Publisher	IOS Press BV
Pages	196-201
Number of pages	6
ISBN (Electronic)	9781643683669
DOIs	https://doi.org/10.3233/ATDE221166
State	Published - 15 Dec 2022
Event	2022 International Conference on Mechatronics and Automation Technology, ICMAT 2022 - Virtual, Online, China Duration: 29 Oct 2022 → 30 Oct 2022

Publication series

Name	Advances in Transdisciplinary Engineering
Volume	33
ISSN (Print)	2352-751X
ISSN (Electronic)	2352-7528

Conference

Conference	2022 International Conference on Mechatronics and Automation Technology, ICMAT 2022
Country/Territory	China
City	Virtual, Online
Period	29/10/22 → 30/10/22

Keywords

Engine blade
high temperature
simulation
thin film thermocouple

Access to Document

10.3233/ATDE221166

Cite this

Zhang, M., Tian, B., Ma, R., Huang, M., Liang, X., Liu, J., & Zhang, Z. (2022). Simulation of High Temperature Thin Film Thermocouple on Engine Blade Surface. In J. Xu (Ed.), Moving Integrated Product Development to Service Clouds in the Global Economy - Proceedings of the 21st ISPE Inc. International Conference on Concurrent Engineering, CE 2014 (pp. 196-201). (Advances in Transdisciplinary Engineering; Vol. 33). IOS Press BV. https://doi.org/10.3233/ATDE221166

Zhang, Meiju ; Tian, Bian ; Ma, Rong et al. / Simulation of High Temperature Thin Film Thermocouple on Engine Blade Surface. Moving Integrated Product Development to Service Clouds in the Global Economy - Proceedings of the 21st ISPE Inc. International Conference on Concurrent Engineering, CE 2014. editor / Jinyang Xu. IOS Press BV, 2022. pp. 196-201 (Advances in Transdisciplinary Engineering).

@inproceedings{d243ed9d3dee42a48b776be73489687f,

title = "Simulation of High Temperature Thin Film Thermocouple on Engine Blade Surface",

abstract = "In order to avoid the instability flutter of aero-engine blade and prevent the failure of thin film thermocouple caused by the blade in complex environment, the structural strength of the thermocouple on the actual blade surface was studied in this paper. Firstly, based on the 3D scanning of the real blade, the blade model is established after the point cloud graphics. The surface thermocouple model of the blade is established in Solidworks for simulation, and the modal and harmonic response analysis of the blade is simulated. Secondly, the vibration of the curved thin film thermocouple and the stress distribution of the blade under the acceleration shock were studied in Comsol, and the failure weakness was analyzed to avoid the failure of the thin film thermocouple caused by the bending, fracture or shedding of the thin film thermocouple on the blade due to vibration and shock, providing the most suitable thermocouple selection for the engine blade.",

keywords = "Engine blade, high temperature, simulation, thin film thermocouple",

author = "Meiju Zhang and Bian Tian and Rong Ma and Manguo Huang and Xiaobo Liang and Jiangjiang Liu and Zhongkai Zhang",

note = "Publisher Copyright: {\textcopyright} 2022 The authors and IOS Press.; 2022 International Conference on Mechatronics and Automation Technology, ICMAT 2022 ; Conference date: 29-10-2022 Through 30-10-2022",

year = "2022",

month = dec,

day = "15",

doi = "10.3233/ATDE221166",

language = "英语",

series = "Advances in Transdisciplinary Engineering",

publisher = "IOS Press BV",

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}

Zhang, M, Tian, B, Ma, R, Huang, M, Liang, X, Liu, J & Zhang, Z 2022, Simulation of High Temperature Thin Film Thermocouple on Engine Blade Surface. in J Xu (ed.), Moving Integrated Product Development to Service Clouds in the Global Economy - Proceedings of the 21st ISPE Inc. International Conference on Concurrent Engineering, CE 2014. Advances in Transdisciplinary Engineering, vol. 33, IOS Press BV, pp. 196-201, 2022 International Conference on Mechatronics and Automation Technology, ICMAT 2022, Virtual, Online, China, 29/10/22. https://doi.org/10.3233/ATDE221166

Simulation of High Temperature Thin Film Thermocouple on Engine Blade Surface. / Zhang, Meiju; Tian, Bian; Ma, Rong et al.
Moving Integrated Product Development to Service Clouds in the Global Economy - Proceedings of the 21st ISPE Inc. International Conference on Concurrent Engineering, CE 2014. ed. / Jinyang Xu. IOS Press BV, 2022. p. 196-201 (Advances in Transdisciplinary Engineering; Vol. 33).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Simulation of High Temperature Thin Film Thermocouple on Engine Blade Surface

AU - Zhang, Meiju

AU - Tian, Bian

AU - Ma, Rong

AU - Huang, Manguo

AU - Liang, Xiaobo

AU - Liu, Jiangjiang

AU - Zhang, Zhongkai

PY - 2022/12/15

Y1 - 2022/12/15

N2 - In order to avoid the instability flutter of aero-engine blade and prevent the failure of thin film thermocouple caused by the blade in complex environment, the structural strength of the thermocouple on the actual blade surface was studied in this paper. Firstly, based on the 3D scanning of the real blade, the blade model is established after the point cloud graphics. The surface thermocouple model of the blade is established in Solidworks for simulation, and the modal and harmonic response analysis of the blade is simulated. Secondly, the vibration of the curved thin film thermocouple and the stress distribution of the blade under the acceleration shock were studied in Comsol, and the failure weakness was analyzed to avoid the failure of the thin film thermocouple caused by the bending, fracture or shedding of the thin film thermocouple on the blade due to vibration and shock, providing the most suitable thermocouple selection for the engine blade.

AB - In order to avoid the instability flutter of aero-engine blade and prevent the failure of thin film thermocouple caused by the blade in complex environment, the structural strength of the thermocouple on the actual blade surface was studied in this paper. Firstly, based on the 3D scanning of the real blade, the blade model is established after the point cloud graphics. The surface thermocouple model of the blade is established in Solidworks for simulation, and the modal and harmonic response analysis of the blade is simulated. Secondly, the vibration of the curved thin film thermocouple and the stress distribution of the blade under the acceleration shock were studied in Comsol, and the failure weakness was analyzed to avoid the failure of the thin film thermocouple caused by the bending, fracture or shedding of the thin film thermocouple on the blade due to vibration and shock, providing the most suitable thermocouple selection for the engine blade.

KW - Engine blade

KW - high temperature

KW - simulation

KW - thin film thermocouple

UR - https://www.scopus.com/pages/publications/85145614102

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M3 - 会议稿件

AN - SCOPUS:85145614102

T3 - Advances in Transdisciplinary Engineering

SP - 196

EP - 201

BT - Moving Integrated Product Development to Service Clouds in the Global Economy - Proceedings of the 21st ISPE Inc. International Conference on Concurrent Engineering, CE 2014

A2 - Xu, Jinyang

PB - IOS Press BV

T2 - 2022 International Conference on Mechatronics and Automation Technology, ICMAT 2022

Y2 - 29 October 2022 through 30 October 2022

ER -

Zhang M, Tian B, Ma R, Huang M, Liang X, Liu J et al. Simulation of High Temperature Thin Film Thermocouple on Engine Blade Surface. In Xu J, editor, Moving Integrated Product Development to Service Clouds in the Global Economy - Proceedings of the 21st ISPE Inc. International Conference on Concurrent Engineering, CE 2014. IOS Press BV. 2022. p. 196-201. (Advances in Transdisciplinary Engineering). doi: 10.3233/ATDE221166

Simulation of High Temperature Thin Film Thermocouple on Engine Blade Surface

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