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REAL TIME INFRA-RED IMAGE PROCESSING FOR THE DETECTION OF DELAMINATION IN COMPOSITE PLATES

REAL TIME INFRA-RED IMAGE PROCESSING FOR THE DETECTION OF DELAMINATION IN COMPOSITE PLATES. L.GUILLAUMAT*, J.C. BATSALE ** and D. MOURAND*** *LAMEFIP-ENSAM **LEPT-ENSAM UMR CNRS 8508 ***Cellule „Themicar“ of LEPT-ENSAM Esplanade des Arts et Métiers 33405 Talence cedex-France

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REAL TIME INFRA-RED IMAGE PROCESSING FOR THE DETECTION OF DELAMINATION IN COMPOSITE PLATES

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  1. REAL TIME INFRA-RED IMAGE PROCESSING FOR THE DETECTION OF DELAMINATION IN COMPOSITE PLATES L.GUILLAUMAT*, J.C. BATSALE** and D. MOURAND*** *LAMEFIP-ENSAM **LEPT-ENSAM UMR CNRS 8508 ***Cellule „Themicar“ of LEPT-ENSAM Esplanade des Arts et Métiers 33405 Talence cedex-France E-mail : batsale@lept-ensam.u-bordeaux.fr

  2. IR camera front face observation Thermal Non Destructive Evaluation principle Heat excitation (halogen lamp) Heterogeneous composite sample IR camera Rear face observation Analysis of the transient images of temperature responses recorded with the cameraand estimation of thermophysical parameters cartographies.

  3. Main features of such thermal NDE • Advantages -No contact -Sensitive to delamination (layer of poor thermal conductivity) • But -such methods are time consuming and expensive -Infrared Cameras are noisy -the image processing is heavy • It is here proposed to: -consider the new generation of infrared cameras -consider suitable image processing methods

  4. New Infrared cameras Some low cost devices Raytheon Palm IR 250, Indigo alpha, Boeing U3000 Some high performance devices CEDIP Jade III, FLIR, AMBER etc…

  5. Sample Sample IRcamera Thermocouple Thermal NDE- Illustration with the flash method MetrologyImaging Laboratory method Industrial method >10 000 pixels T(t) measurement 1 T(t) measurement 2.5 T (°C) T (°C) 0.1 t (s) t (s) 0 40 10 20 30 0 40 10 20 30 • 1 T(t) measurement • measurement with contact • very accurate measurement • >10000 T(t) measurements • measurements without contact • very noisy measurements

  6. Can we discern two very noisy thermograms ?

  7. DATA PROCESSING STRATEGY Signal proportional to the temperature Reduction of the measurement noise influence Linear transform Low excitations Parameters estimation Great amount of data Reduction of the amount of data Knowledge of the transfer model

  8. explicative variable Finite number of parameters ^ ” measurement error” (ramdom variable) measure (random variable) T = T + eT real value ^ bi = bi + ebi estimation error (random variable) estimator (random variable) real value Assumptions about the measurement noise T = f (t,b1, b2 ,b3...)

  9. ^ ^ b= (XtX)-1 Xt T cov(eb) = (XtX)-1s 2 Linear least squares(Maximum likelywhood theorem) T = X b Hypothesis : -zero mean and additive errors -b constant and unknown before the estimation and Xij known without error -constant variance (s known) and uncorrelated errors ^ ^ boptimum minimize the sum squares function S between theory and experiment ^ ^ Estimator Estimation error

  10. Linear processing of data T B Estimation of a reduced number of parameters X = * About 20 Mbytes in 20s Sensitivity Advantages: -Reduction of the amount of data -Decreasing of the noise influence -Possibility of sequential processing without memory storage But: -How to do the determination of the sensitivity matrix X ??? -What kind of linear transform (Xt*T) can be chosen?

  11. ESTIMATION AND LOCALLY 1D TRANSFER Expression of the temperature response from a Flash experiment The delamination in a composite material act as a small thermal conductivity variation on the temperature response of each pixel. Two kinds of asymptotic expansions can be considered: or In this case X or the sensitivity vectors are calculated theoretically with the knowledge of nominal parameters. or In this case X or the sensitivity vectors are calculated with a reference signal f(t). Such reference signal can be obtained here with the spatial average of the images of temperature.

  12. Experimental Thermogram with Raytheon Palm IR 250 Temperature Level 50 40 30 20 10 0 One pixel thermogram Average of the image thermogram -10 -20 0 10 20 30 40 50 Time (s)

  13. Application of this method with a CEDIP camera to the study of a delaminated sample Video image of a 5mm thick transparent delaminated fiber-glass–epoxy plate Delamination cartography estimation by thermal method of the previous plate.

  14. 3D representation of the delamination (equivalent air thickness) Relation between thermophysical properties and structural properties: It can be noted that in the centre of the damaged zone induced by impact exists an undamaged area observed also by de-ply technique.

  15. Conclusion • The main features of such NDE method are: • The experiment is simple and contactless. • The processing consists in computing weighted sums of the images or of the pixels. This can be done in real time (20s). • The method can be implemented with low cost or high performance cameras • The main points for the study of damaged samples : • Such a device provides a 3D representation of the delamination in good agreement with physical destructive observations. • Some future works will consist in observing the evolution of the delamination structure during fatigue experiments.

  16. Bibliography about similar image processing methods(based on linear transform of the data and some physical knowledge about the heat transfer) • Time Fourier Transform-Periodic excitation D. Wu, C. Y. Wu, G. Busse, Investigation of resolution in lock-in thermography: Theory and experiment, Eurotherm Quantitaive Infrared Thermography QIRT’96,Stuttgart 2-5 Septembre 1996. • Flash method and asymptotic expansions estimations methods Mourand D., Batsale J.C.:(2000) Real time processing with low cost uncooled plane array IR camera-Application to flash non-destructive evaluation, QIRT 2000, Eurotherm seminar 64, Reims . Mourand D., Batsale J.C., Gounot J. :(1998) New sequential method to process noisy yemperature response from flash experiment measured by infrared camera, Review of Scientific Instrument, vol 69 n3, pp 1437-1441 Goetz C., Batsale JC, Mourand D – Fast processing methods for thermal non-destructive evaluation of thin plates with low cost infared cameras. Image Analysis & Stereologie 20, (2) Suppl 1, 227-232, 2001. • Space Fourier transform Philippi I., Batsale J.C., Maillet D. et Degiovanni A. : (1995) Measurement of thermal diffusivity through processing of infrared images processing, Rev. Sci. Instru., 66(1), pp182-192. Krapez J.C., 1999 Mesure de diffusivité longitudinale de plaques minces par méthode de grille-Journée SFT:”Thermographie IR quantitative” ONERA Mars 1999. • Homogenization: Batsale J.C.., Gobbé C., and Quintard M., 1996, Local non-equilibrium heat transfer in porous media. Recent Res. Devel. in Heat, Mass & Momentum Transfer 1. Poncet E., Bereziat D., Grangeot G., Batsale J.C. (1998) Experimental estimation of the heat exchange coefficient of a non-equilibrium model by infrared measurement temperature on a stratified system- 11 Int.Heat Transfer Conference Kyong Ju Korea. Varenne M., Batsale J.C., Gobbé C., (2000) Estimation of local thermophysical properties of a 1D periodic heterogeneous medium by infrared image processing and volume averaging method- Journal of Heat Transfer-ASME. February 2000, vol 122, pp21-26 Varenne M., Batsale J.C., Gobbé C., (2000) Estimation of a local 1D or 2D thermal conductivity field with infrared images processing and volume averaging method, QIRT 2000, Eurotherm seminar 64, Reims . 2D thermal intercorrelation study: Guillaumat L. Davy L. Bouquet J. Batsale JC., (2003) A new thermal method for the crack detection in damaged composite plates-application of flash method and infrared thermography- Comp test 2003 communication (poster).

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