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

Orteu, Jean-José; Rotrou, Yann; Sentenac, Thierry; Robert, Laurent

doi:10.1007/s11340-007-9071-7

Cited by 34 publications

(27 citation statements)

References 31 publications

(29 reference statements)

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“…One of the advantages of projecting the temperature fields onto a 3D model is to be able to perform emissivity corrections since it depends on the observation angle [12]. Two CCD cameras and a technique exploiting the sensitivity of the sensors in the near infrared radiations allows SC and temperature measurements to be performed [13]. However, this technique is applicable for very high temperature experiments (i.e., above 300 °C).…”

Section: Introductionmentioning

confidence: 99%

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Hybrid Stereocorrelation Using Infrared and Visible Light Cameras

et al. 2016

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3D kinematic fields are measured using an original stereovision system composed of one infrared (IR) and one visible light camera. Global stereocorrelation (SC) is proposed to register pictures shot by both imaging systems. The stereo rig is calibrated by using a NURBS representation of the 3D target. The projection matrices are determined by an integrated approach. The effect of gray level and distortion corrections is assessed on the projection matrices. SC is performed once the matrices are calibrated to measure 3D displacements. Amplitudes varying from 0 to 800 µm are well captured for in-plane and out-ofplane motions. It is shown that when known rigid body translations are applied to the target, the calibration can be improved when its actual metrology is approximate. Applications are shown for two different setups for which the resolution of the IR camera has been modified.

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Section: Introductionmentioning

confidence: 99%

“…The temperature is kept constant even though methods exist to consider temperature changes [25]. It is also possible to measure temperature changes as digital level variations [13], [25]. Therefore a gray level relaxation accounting for brightness and contrast readjustments [7], [9], [28] takes into account such effects.…”

Section: Introductionmentioning

confidence: 99%

Hybrid Stereocorrelation Using Infrared and Visible Light Cameras

et al. 2016

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“…[7] This near IR and visible emission is collected by the CCD camera and converted digitally into intensity levels. Relationships between each intensity level and the temperature are given by calibration with a pyrometer.…”

Section: Temperature Measurementmentioning

confidence: 99%

Contactless Monitoring of Shrinkage and Temperature Distribution during Hybrid Microwave Sintering

et al. 2011

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International audienceA novel method to investigate the microwave hybrid sintering process is presented. The method described measures simultaneously over time the changes in shrinkage and temperature field on the sample's surface. The measurements are carried out continuously by using a CCD camera and an IR pyrometer during microwave heating. Moreover, the equipment used is both contactless and less expensive than conventional approaches

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“…Moreover, the image has already been significantly blurred at the far end of the specimen. Consequently, most of the applications and investigations of the stereo DIC are confined to measure limited out‐of‐plane deformations [7–17]. To obtain a complete full field and gain accuracy in cases such as the one shown in Figure 1, an idea of multi‐camera stereo DIC set‐up has been introduced in the past, where ‘multi‐camera’ refers to three or more cameras.…”

Section: Introductionmentioning

confidence: 99%

Application of a Multi‐Camera Stereo DIC Set‐up to Assess Strain Fields in an Erichsen Test: Methodology and Validation

Wang¹,

Lava²,

Coppieters³

et al. 2013

Strain

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A multi-camera stereo digital image correlation (MC-DIC) set-up is presented to obtain full displacement and strain fields of a sheet-metal specimen subjected to an Erichsen test. The set-up is composed of several conventional stereo DIC systems (two camera setup), each of which tracks the deformation of an aspect of the specimen. The individual measurements, including the geometries and the displacements, are then converted to the same reference frame to integrate into a global view. Afterwards, the strain is calculated based on the composed displacement field. It is found that the geometry and the displacement fields of the bulged specimen are ideally stitched, and smooth strain fields are obtained. The influences of the reference frame transformation and the stitching procedure on the MC-DIC measurement are investigated. A rigid motion test is performed to validate the displacement measurement. It is discussed that the global field is more reliable than the individual measurements for this test set-up.

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

Cited by 34 publications

References 31 publications

Hybrid Stereocorrelation Using Infrared and Visible Light Cameras

Hybrid Stereocorrelation Using Infrared and Visible Light Cameras

Contactless Monitoring of Shrinkage and Temperature Distribution during Hybrid Microwave Sintering

Application of a Multi‐Camera Stereo DIC Set‐up to Assess Strain Fields in an Erichsen Test: Methodology and Validation

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