Real-Time Detection and Measurement of Cracks in Fatigue Test Applications

Research output: Contribution to conferencePaperpeer-review

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Real-Time Detection and Measurement of Cracks in Fatigue Test Applications. / Thurner, Thomas.
2015. 555 Paper presented at AMA Conferences 2015, Germany.

Research output: Contribution to conferencePaperpeer-review

Harvard

Thurner, T 2015, 'Real-Time Detection and Measurement of Cracks in Fatigue Test Applications', Paper presented at AMA Conferences 2015, Germany, 19/05/15 - 21/05/15 pp. 555. https://doi.org/10.5162/sensor2015/D3.3

Vancouver

Thurner T. Real-Time Detection and Measurement of Cracks in Fatigue Test Applications. 2015. Paper presented at AMA Conferences 2015, Germany. doi: 10.5162/sensor2015/D3.3

Author

Thurner, Thomas. / Real-Time Detection and Measurement of Cracks in Fatigue Test Applications. Paper presented at AMA Conferences 2015, Germany.559 p.

Bibtex - Download

@conference{07e2e0009b6d4a1eab42bbc6880ef48f,
title = "Real-Time Detection and Measurement of Cracks in Fatigue Test Applications",
abstract = "The detection of crack initiation and the observation of crack growth are of great importance for evaluating the fracture mechanics and fatigue behavior of mechanical components and structures. The proposed method targets on detection and measurement of cracks on metallic surfaces where initial artificial cracks have been applied to the specimen{\textquoteright}s surface prior to dynamic loading in a test rig. Applying a pre-test surface treatment in terms of polishing the investigation area on the specimen enables for highest resolution and accuracy for crack detection and crack length measurement with a resolution in the order better than 0.05mm over a crack length of up to total 10mm and more. The developed measurement system operates in real time during cyclic loading of the test unit within the test application. Load-triggered illumination by high-power LEDs together with load-triggered image acquisition by a high resolution digital camera enables the real-observation of crack development on the investigated surface area. The implementation of the system on a real time hardware enables the robust measurement of crack lengths on-site and in real-time. The developed system achieves impressive real-time measurement performance for crack detection and crack length estimation, in combination with the advantage of non-contacting operation and highly desired on-site measurement capabilities during dynamic load experiments.",
author = "Thomas Thurner",
year = "2015",
doi = "10.5162/sensor2015/D3.3",
language = "English",
pages = "555",
note = "AMA Conferences 2015 : Proceedings SENSOR 2015 ; Conference date: 19-05-2015 Through 21-05-2015",

}

RIS (suitable for import to EndNote) - Download

TY - CONF

T1 - Real-Time Detection and Measurement of Cracks in Fatigue Test Applications

AU - Thurner, Thomas

PY - 2015

Y1 - 2015

N2 - The detection of crack initiation and the observation of crack growth are of great importance for evaluating the fracture mechanics and fatigue behavior of mechanical components and structures. The proposed method targets on detection and measurement of cracks on metallic surfaces where initial artificial cracks have been applied to the specimen’s surface prior to dynamic loading in a test rig. Applying a pre-test surface treatment in terms of polishing the investigation area on the specimen enables for highest resolution and accuracy for crack detection and crack length measurement with a resolution in the order better than 0.05mm over a crack length of up to total 10mm and more. The developed measurement system operates in real time during cyclic loading of the test unit within the test application. Load-triggered illumination by high-power LEDs together with load-triggered image acquisition by a high resolution digital camera enables the real-observation of crack development on the investigated surface area. The implementation of the system on a real time hardware enables the robust measurement of crack lengths on-site and in real-time. The developed system achieves impressive real-time measurement performance for crack detection and crack length estimation, in combination with the advantage of non-contacting operation and highly desired on-site measurement capabilities during dynamic load experiments.

AB - The detection of crack initiation and the observation of crack growth are of great importance for evaluating the fracture mechanics and fatigue behavior of mechanical components and structures. The proposed method targets on detection and measurement of cracks on metallic surfaces where initial artificial cracks have been applied to the specimen’s surface prior to dynamic loading in a test rig. Applying a pre-test surface treatment in terms of polishing the investigation area on the specimen enables for highest resolution and accuracy for crack detection and crack length measurement with a resolution in the order better than 0.05mm over a crack length of up to total 10mm and more. The developed measurement system operates in real time during cyclic loading of the test unit within the test application. Load-triggered illumination by high-power LEDs together with load-triggered image acquisition by a high resolution digital camera enables the real-observation of crack development on the investigated surface area. The implementation of the system on a real time hardware enables the robust measurement of crack lengths on-site and in real-time. The developed system achieves impressive real-time measurement performance for crack detection and crack length estimation, in combination with the advantage of non-contacting operation and highly desired on-site measurement capabilities during dynamic load experiments.

U2 - 10.5162/sensor2015/D3.3

DO - 10.5162/sensor2015/D3.3

M3 - Paper

SP - 555

T2 - AMA Conferences 2015

Y2 - 19 May 2015 through 21 May 2015

ER -