New Absolute Contrast for pulsed thermography

Klein, M.; Maldague, Xavier; Pilla, M.; Salerno, A.

doi:10.21611/qirt.2002.004

Cited by 101 publications

(78 citation statements)

References 7 publications

(7 reference statements)

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“…where k is the thermal conductivity in W/(m·K), Τ(r,t) is the temperature distribution as a function of position and time, g(r,t) is the rate of energy generation per unit volume in the medium (W·m 3 ) and C and ρ the specific heat (J·kg -1 ·K -1 ) and the density (kg·m -3 ) of the material. Assuming that the specimens under test are homogeneous, in a defect free sample at a point far from any edge, lateral heat components cancel and the simplest model used to solve equation 1, assuming a Dirac thermal pulse is been applied to the body, can be expressed by: Considering t' as a time comprised between the time of flash impulse (t0) and the time at which the first defect becomes visible [3],…”

Section: Theoretical Backgroundmentioning

confidence: 99%

“…Assuming that the specimens under test are homogeneous, in a defect free sample at a point far from any edge, lateral heat components cancel and the simplest model used to solve equation 1, assuming a Dirac thermal pulse is been applied to the body, can be expressed by: Considering t' as a time comprised between the time of flash impulse (t0) and the time at which the first defect becomes visible [3],…”

Section: Theoretical Backgroundmentioning

confidence: 99%

“…Moreover, if the injected energy is assumed to change relatively smoothly, Q/e can be solved locally and the following relation can be extracted [3]:…”

Section: Theoretical Backgroundmentioning

confidence: 99%

“…Some attempts have been proposed for avoiding this necessity of sound area knowledge and, even, overcoming other problems such as the non-uniformity of the thermal stimulation or the tilt of the heat pulse source respected to the normal to the specimen surface. Among them, the Differentiated Absolute Contrast (DAC) method is one of the simplest and easily implemented [3]. However, the experience of an operator working in this field still is necessary in order to obtain satisfactory results and clear contrast images.…”

Section: Introductionmentioning

confidence: 99%

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Automatic interpolated differentiated absolute contrast algorithm for the analysis of pulsed thermographic sequences

González¹,

Ibarra‐Castanedo²,

Pilla³

et al. 2004

Proceedings of the 2004 International Conference on Quantitative InfraRed Thermography

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An automation of the Differentiated Absolute Contrast (DAC) method, called Interpolated Differentiated Absolute Contrast Algorithm (IDAC), is proposed for pulsed infrared thermography. Based on the previously known method, the new algorithm simplifies the analysis process of thermographic sequences resolving the decisions that the user should normally take when applying the DAC method. The algorithm has been successfully checked experimentally with results obtained using Plexiglas TM , graphite-epoxy and aluminium specimens.

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Section: Theoretical Backgroundmentioning

confidence: 99%

Section: Theoretical Backgroundmentioning

confidence: 99%

“…Moreover, if the injected energy is assumed to change relatively smoothly, Q/e can be solved locally and the following relation can be extracted [3]:…”

Section: Theoretical Backgroundmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Automatic interpolated differentiated absolute contrast algorithm for the analysis of pulsed thermographic sequences

González¹,

Ibarra‐Castanedo²,

Pilla³

et al. 2004

Proceedings of the 2004 International Conference on Quantitative InfraRed Thermography

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“…Among them absolute contrast, normalized contrast, running contrast, and standard contrast are some of the early contrast definitions and they require the knowledge of sound zone [4]. Differential Absolute Contrast (DAC) [5] and modified Differential Absolute Contrast (mDAC) [6] are two of the methods that removes the non-uniformity in the thermal images. The reference sound zone profile in these two methods is analytically determined.…”

Section: Introductionmentioning

confidence: 99%

Normalization and sound zone determination in pulse thermographic NDE

Sripragash¹,

Sundaresan²

2017

AIP Conference Proceedings

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Abstract. Thermographic nondestructive evaluation is quick and effective in detecting damage particularly for composite structures. Pulse thermographic nondestructive evaluation (TNDE) technique can potentially provide information on defect dimensions, such as the depth at which the defect is located. However, there are a number of extraneous variables that affect the signal obtained during these tests, such as non-uniformity in the heat pulse applied and differences in the emissivity of the surfaces from specimen to specimen. In addition, the identification of defect free areas in the image is a challenge. As in other NDE procedures calibration specimens would be of help, but calibration specimens corresponding to complex damage states in composite materials are difficult to fabricate. Results from validated numerical simulations can complement calibration specimens. However, the thermo-mechanical properties of the test object as well as the amount of heat energy absorbed in the field tests are not readily available for such models. This paper presents an extension of the thermographic signal reconstruction (TSR) procedure in which the temperature and the time scales are respectively normalized with equilibrium temperature and the break time. A benefit of such normalization is the ability to directly measure the defect depth as a fraction of plate thickness. In order to implement this normalization procedure, sound zone profile definition is required. A new approach for determining sound zone profile has been developed. Finally, determination of sound zone is affected by non-uniform heating, and a method of minimizing the effects of non-uniform heating is proposed. The performance of these new approaches on actual experimental results are presented.

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Infrared Thermography

Ibarra‐Castanedo

Maldague

2013

Handbook of Technical Diagnostics

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New Absolute Contrast for pulsed thermography

Cited by 101 publications

References 7 publications

Automatic interpolated differentiated absolute contrast algorithm for the analysis of pulsed thermographic sequences

Automatic interpolated differentiated absolute contrast algorithm for the analysis of pulsed thermographic sequences

Normalization and sound zone determination in pulse thermographic NDE

Infrared Thermography

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