Observations on Photo-Emission and the Process Zone of a Fatigue Crack

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Volume 3, Issue 6 (June 2006)

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ISSN: 1546-962X
Published Online: 17 May 2006
Page Count: 9

Observations on Photo-Emission and the Process Zone of a Fatigue Crack
Patterson, EA
Professor, Michigan State University, MI

Diaz, FA
Assistant Professor, Universidad de Jaen,

Yates, JR
Professor, University of Sheffield,

(Received 11 April 2005; accepted 7 April 2006)

Abstract

Cyclic loading of a solid material induces a cyclic temperature fluctuation. The thermal cycle is asynchronous with the loading cycle when the strains are elastic. This is commonly known as the thermoelastic effect. In differential thermography, a sensitive infrared camera is used to measure this temperature variation; typically of the order of a few tens of milliKelvin. Since the magnitude of the temperature variation is proportional to the dilational strain, values of the surface elastic stress can be derived. Recent advances in infrared camera technology and data processing algorithms have enabled values of effective stress intensity factor ranges and the location of fatigue cracks to be determined from temperature fluctuations around the crack tip on the specimen surface. Careful observation in the region near a crack tip reveals deviations from the asynchronous behavior of the photon signal relative to the load cycle. Phase shifts up to π/8 are commonly observed. The spatial distribution of these phase shifts exhibits characteristic features which are described and discussed. The features in this distribution appear to be associated with high elastic strain gradients, regions of plasticity and contact between the crack faces. Interpretation of the phase shift and its spatial distribution may lead to a better understanding of the mechanics of fatigue crack growth.

Keywords:
thermoelasticity, fatigue crack, plastic zone

Paper ID: JAI13222
DOI: 10.1520/JAI13222
ASTM International is a member of CrossRef.

Author Title Observations on Photo-Emission and the Process Zone of a Fatigue Crack Symposium Fatigue and Fracture Mechanics: 35th Volume, 2005-05-20 Committee E08

		Home Journals STPs Manuals Topics Subscriptions/Pricing Digital Library / Journals / Journal of ASTM International (JAI) / Citation Page Volume 3, Issue 6 (June 2006) Click here to download this paper now for $25 PDF (336K) View License Agreement ISSN: 1546-962X Published Online: 17 May 2006 Page Count: 9 Observations on Photo-Emission and the Process Zone of a Fatigue Crack Patterson, EA Professor, Michigan State University, MI Diaz, FA Assistant Professor, Universidad de Jaen, Yates, JR Professor, University of Sheffield, (Received 11 April 2005; accepted 7 April 2006) Abstract Cyclic loading of a solid material induces a cyclic temperature fluctuation. The thermal cycle is asynchronous with the loading cycle when the strains are elastic. This is commonly known as the thermoelastic effect. In differential thermography, a sensitive infrared camera is used to measure this temperature variation; typically of the order of a few tens of milliKelvin. Since the magnitude of the temperature variation is proportional to the dilational strain, values of the surface elastic stress can be derived. Recent advances in infrared camera technology and data processing algorithms have enabled values of effective stress intensity factor ranges and the location of fatigue cracks to be determined from temperature fluctuations around the crack tip on the specimen surface. Careful observation in the region near a crack tip reveals deviations from the asynchronous behavior of the photon signal relative to the load cycle. Phase shifts up to π/8 are commonly observed. The spatial distribution of these phase shifts exhibits characteristic features which are described and discussed. The features in this distribution appear to be associated with high elastic strain gradients, regions of plasticity and contact between the crack faces. Interpretation of the phase shift and its spatial distribution may lead to a better understanding of the mechanics of fatigue crack growth. Keywords: thermoelasticity, fatigue crack, plastic zone Paper ID: JAI13222 DOI: 10.1520/JAI13222 ASTM International is a member of CrossRef. Author Title Observations on Photo-Emission and the Process Zone of a Fatigue Crack Symposium Fatigue and Fracture Mechanics: 35th Volume, 2005-05-20 Committee E08