Near infrared thermography with silicon FPA - Comparison to MWIR and LWIR thermography

Rotrou, Yann; Sentenac, Thierry; Maoult, Yannick Le; Magnan, Pierre; Farre, J.

doi:10.3166/qirt.3.93-115

Cited by 16 publications

(15 citation statements)

References 10 publications

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“…The skin layers of the sample P4V are made of glass fiber reinforced polymer (GFRP), meanwhile the layers of the sample P4C are made of carbon fiber reinforced polymer (CFRP) (see Figs. [1][2][3][4][5].…”

Section: Sandwich Samplesmentioning

confidence: 99%

“…Gavrilov et al [6] made a comparison of near and mid infrared ban reflectography for art diagnosis, field in which the near-infrared is more used. A comparison to MWIR and LWIR of the near infrared thermography was made by Rotrou et al [4], the paper is centered in the Silicon Plane Array of the near infrared camera and presents a calibration procedure for the cameras that are compared. However, a direct comparison of both technologies for active detection of defects in composite materials has not been realized yet, which is the main objective of this work.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Review of thermal imaging systems in composite defect detection

Aldave

Bosom

González

et al. 2013

Infrared Physics & Technology

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Section: Sandwich Samplesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Review of thermal imaging systems in composite defect detection

Aldave

Bosom

González

et al. 2013

Infrared Physics & Technology

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“…• C, using a blackbody source in a calibration situation and a 3-parameters radiometric model, the apparent temperature measurement accuracy is less than 1 • C at an observation distance of 1 m [20,21]. Using a 4-parameters radiometric model, the same performances can be reached in the range 300 to 1000 • C. Such performances for temperature measurements using off-the-shelf low-cost uncooled CCD cameras have been obtained thanks to the accurate radiometric modelling of the camera and because particular attention has been paid to each possible source of error.…”

Section: Temperature Measurementsmentioning

confidence: 99%

“…1 In this paper, only CCD cameras are dealt with but CMOS cameras have also been investigated [21,22]. If the non linearity and non uniformity are not corrected, this can affect the difference of temperature between two adjacent points, which can be a serious problem to compute thermal gradients [22].…”

Section: Ccd Camera Correctionsmentioning

confidence: 99%

An Innovative Method for 3-D Shape, Strain and Temperature Full-Field Measurement Using a Single Type of Camera: Principle and Preliminary Results

et al. 2007

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An innovative technique for measuring both the shape, the displacement, the strain and the temperature fields at the surface of an object using a single stereovision sensor is proposed. The sensor is based on two off-the-shelf low-cost high-resolution uncooled CCD cameras. To allow both dimensional and thermal measurements, the sensor operates in the visible and near infrared (NIR) spectral band (0.7-1.1 µm), and a radiometric and geometric calibration of the sensor is required. This technique leads to a low-cost camera-based simplified instrumentation that gives simultaneously dimensional/kinematical and thermal field measurements.Key words: geometric camera calibration, radiometric camera calibration, shape measurements, strain measurements, temperature measurements, full-field measurements, stereovision, digital image correlation (DIC), stereo-correlation, 3-D metrology, experimental mechanics. Preprint submitted to Experimental MechanicsJune 2007 1 Introduction For temperature measurements, many sensors are also available, from the classical thermocouples up to more sophisticated non-contact sensors like infrared cameras or pyrometers [14,15]. Thus, getting the strains and temperature at the same time implies generally a multi-instrumentation of the set-up and it is not so easy to combine the measurements of various categories in order to get the strains and the temperature at a given point of the specimen surface. 2 classical thermocamera with the 3-D shape data provided by a stereovision sensor. Their technique requires three cameras (an IR camera and two CCD cameras for the stereovision sensor) and a specific calibration procedure is needed to perform the fusion of the thermal and kinematical data provided by two different types of cameras. Satzger et al. [17] propose to utilize an infrared camera with a fringe projection technique to obtain a cloud of 3-D points and

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“…The radiometric model describes the relation between the radiance temperature and the gray level value delivered by the camera. In the NIR spectral band, a specific radiometric model, based on the introduction an effective wavelength which depends on temperature, is required [11] and is given by equations (10) and (11).…”

Section: Measurement Of the Radiance Temperaturementioning

confidence: 99%

New approach on determination of emissivity fields using bicolor reflectometry technique

Sentenac

Hernández²,

Maoult³

et al. 2010

Proceedings of the 2010 International Conference on Quantitative InfraRed Thermography

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In a context of quantitative thermography, the main problem for measuring a true temperature field is the knowledge of the thermo-optical properties of the object. The article introduces an approach for measuring the true temperature based on the fusion of the radiance temperature and the measurements in-situ of the material properties. The method is called thermoreflectometry and it is inspired of the work on punctual true temperature measurement by reflectometry presented in [8] on pyroreflectometry.

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Near infrared thermography with silicon FPA - Comparison to MWIR and LWIR thermography

Cited by 16 publications

References 10 publications

Review of thermal imaging systems in composite defect detection

Review of thermal imaging systems in composite defect detection

An Innovative Method for 3-D Shape, Strain and Temperature Full-Field Measurement Using a Single Type of Camera: Principle and Preliminary Results

New approach on determination of emissivity fields using bicolor reflectometry technique

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