Experimental study of turbine disk residual stress measurement using Lcr wave

Junfeng Wang; Chunguang Xu; Jianfeng Song; Haibing Tian

doi:10.1109/FENDT.2016.7992002

Experimental study of turbine disk residual stress measurement using Lcr wave

Junfeng Wang, Chunguang Xu, Jianfeng Song, Haibing Tian

School of Mechanical Engineering

Beijing Institute of Technology

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

3 Citations (Scopus)

Abstract

Turbine disk usually cracks near the arc junction between the rim and the plate (called the root of turbine disk). This paper presents the application of an ultrasonic method to measure stresses on the root of turbine disk. The ultrasonic residual stresses measurement is based on the acoustoelastic effect that refers to the change in velocity of the elastic wave when propagating in a stressed media. We employ critically refracted longitudinal waves(Lcr wave) and relate its time variation with applied stress. This paper studies the propagation law of Lcr wave in inclined surface of different angles and verifies that Lcr wave can propagate on rectangular components. The specific probe head is designed to detect residual stress on the root of the turbine disk. The experimental result shows that it is feasible to use Lcr wave to detect residual stress on the roots of the turbine disk.

Original language	English
Title of host publication	Proceedings of 2016 IEEE Far East NDT New Technology and Application Forum, FENDT 2016
Editors	Chunguang Xu
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	90-94
Number of pages	5
ISBN (Electronic)	9781509026630
DOIs	https://doi.org/10.1109/FENDT.2016.7992002
Publication status	Published - 25 Jul 2017
Event	2016 IEEE Far East NDT New Technology and Application Forum, FENDT 2016 - Nanchang, China Duration: 22 Jun 2016 → 24 Jun 2016

Publication series

Name	Proceedings of 2016 IEEE Far East NDT New Technology and Application Forum, FENDT 2016

Conference

Conference	2016 IEEE Far East NDT New Technology and Application Forum, FENDT 2016
Country/Territory	China
City	Nanchang
Period	22/06/16 → 24/06/16

Keywords

Lcr wave
Measurement
Residual stress
Turbine disk

Access to Document

10.1109/FENDT.2016.7992002

Cite this

Wang, J., Xu, C., Song, J., & Tian, H. (2017). Experimental study of turbine disk residual stress measurement using Lcr wave. In C. Xu (Ed.), Proceedings of 2016 IEEE Far East NDT New Technology and Application Forum, FENDT 2016 (pp. 90-94). Article 7992002 (Proceedings of 2016 IEEE Far East NDT New Technology and Application Forum, FENDT 2016). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/FENDT.2016.7992002

Wang, Junfeng ; Xu, Chunguang ; Song, Jianfeng et al. / Experimental study of turbine disk residual stress measurement using Lcr wave. Proceedings of 2016 IEEE Far East NDT New Technology and Application Forum, FENDT 2016. editor / Chunguang Xu. Institute of Electrical and Electronics Engineers Inc., 2017. pp. 90-94 (Proceedings of 2016 IEEE Far East NDT New Technology and Application Forum, FENDT 2016).

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title = "Experimental study of turbine disk residual stress measurement using Lcr wave",

abstract = "Turbine disk usually cracks near the arc junction between the rim and the plate (called the root of turbine disk). This paper presents the application of an ultrasonic method to measure stresses on the root of turbine disk. The ultrasonic residual stresses measurement is based on the acoustoelastic effect that refers to the change in velocity of the elastic wave when propagating in a stressed media. We employ critically refracted longitudinal waves(Lcr wave) and relate its time variation with applied stress. This paper studies the propagation law of Lcr wave in inclined surface of different angles and verifies that Lcr wave can propagate on rectangular components. The specific probe head is designed to detect residual stress on the root of the turbine disk. The experimental result shows that it is feasible to use Lcr wave to detect residual stress on the roots of the turbine disk.",

keywords = "Lcr wave, Measurement, Residual stress, Turbine disk",

author = "Junfeng Wang and Chunguang Xu and Jianfeng Song and Haibing Tian",

note = "Publisher Copyright: {\textcopyright} 2016 IEEE.; 2016 IEEE Far East NDT New Technology and Application Forum, FENDT 2016 ; Conference date: 22-06-2016 Through 24-06-2016",

year = "2017",

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doi = "10.1109/FENDT.2016.7992002",

language = "English",

series = "Proceedings of 2016 IEEE Far East NDT New Technology and Application Forum, FENDT 2016",

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Wang, J, Xu, C, Song, J & Tian, H 2017, Experimental study of turbine disk residual stress measurement using Lcr wave. in C Xu (ed.), Proceedings of 2016 IEEE Far East NDT New Technology and Application Forum, FENDT 2016., 7992002, Proceedings of 2016 IEEE Far East NDT New Technology and Application Forum, FENDT 2016, Institute of Electrical and Electronics Engineers Inc., pp. 90-94, 2016 IEEE Far East NDT New Technology and Application Forum, FENDT 2016, Nanchang, China, 22/06/16. https://doi.org/10.1109/FENDT.2016.7992002

Experimental study of turbine disk residual stress measurement using Lcr wave. / Wang, Junfeng; Xu, Chunguang; Song, Jianfeng et al.
Proceedings of 2016 IEEE Far East NDT New Technology and Application Forum, FENDT 2016. ed. / Chunguang Xu. Institute of Electrical and Electronics Engineers Inc., 2017. p. 90-94 7992002 (Proceedings of 2016 IEEE Far East NDT New Technology and Application Forum, FENDT 2016).

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

TY - GEN

T1 - Experimental study of turbine disk residual stress measurement using Lcr wave

AU - Wang, Junfeng

AU - Xu, Chunguang

AU - Song, Jianfeng

AU - Tian, Haibing

PY - 2017/7/25

Y1 - 2017/7/25

N2 - Turbine disk usually cracks near the arc junction between the rim and the plate (called the root of turbine disk). This paper presents the application of an ultrasonic method to measure stresses on the root of turbine disk. The ultrasonic residual stresses measurement is based on the acoustoelastic effect that refers to the change in velocity of the elastic wave when propagating in a stressed media. We employ critically refracted longitudinal waves(Lcr wave) and relate its time variation with applied stress. This paper studies the propagation law of Lcr wave in inclined surface of different angles and verifies that Lcr wave can propagate on rectangular components. The specific probe head is designed to detect residual stress on the root of the turbine disk. The experimental result shows that it is feasible to use Lcr wave to detect residual stress on the roots of the turbine disk.

AB - Turbine disk usually cracks near the arc junction between the rim and the plate (called the root of turbine disk). This paper presents the application of an ultrasonic method to measure stresses on the root of turbine disk. The ultrasonic residual stresses measurement is based on the acoustoelastic effect that refers to the change in velocity of the elastic wave when propagating in a stressed media. We employ critically refracted longitudinal waves(Lcr wave) and relate its time variation with applied stress. This paper studies the propagation law of Lcr wave in inclined surface of different angles and verifies that Lcr wave can propagate on rectangular components. The specific probe head is designed to detect residual stress on the root of the turbine disk. The experimental result shows that it is feasible to use Lcr wave to detect residual stress on the roots of the turbine disk.

KW - Lcr wave

KW - Measurement

KW - Residual stress

KW - Turbine disk

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Wang J, Xu C, Song J, Tian H. Experimental study of turbine disk residual stress measurement using Lcr wave. In Xu C, editor, Proceedings of 2016 IEEE Far East NDT New Technology and Application Forum, FENDT 2016. Institute of Electrical and Electronics Engineers Inc. 2017. p. 90-94. 7992002. (Proceedings of 2016 IEEE Far East NDT New Technology and Application Forum, FENDT 2016). doi: 10.1109/FENDT.2016.7992002

Experimental study of turbine disk residual stress measurement using Lcr wave

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