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team:gdeliege:shearo [2015/08/11 15:10] geoffreyteam:gdeliege:shearo [2016/03/30 15:23] (current) – external edit 127.0.0.1
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-==== Shearography ====+===== Shearography =====
  
-== Introduction ==+=== Introduction ===
  
-I am really no expert in shearography, so I will quote J.-F. Vandenrijt [1] for a proper definition:+I am no shearography expert, so I will quote J.-F. Vandenrijt [1] for a proper definition:
 //Shearography records the interference pattern between a speckle object wavefront //Shearography records the interference pattern between a speckle object wavefront
 and itself laterally displaced through an optical shearing device. and itself laterally displaced through an optical shearing device.
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 and Arthur Lismonde [3] made finite element simulations of the experiment. and Arthur Lismonde [3] made finite element simulations of the experiment.
 Arthur used ANSYS, which was available at the university where he went on Erasmus. Arthur used ANSYS, which was available at the university where he went on Erasmus.
-However, we wanted to make a test requiring a particular post-processing of the results, +However, we wanted to make a test requiring a particular post-processing of the finite element results, 
-so I made simulations on my own with my personal code.+so I made simulations on my own with my code.
  
-== Problem description ==+=== Problem description ===
  
-Several composite plates (10cm*15cm) were made of epoxy resin reinforced with carbon fabric.+Several composite plates (18cm*15cm*4.4mm) were made of epoxy resin reinforced with carbon fabric.
 In practice, one or several holes were drilled in the back of the plates to simulate defects. In practice, one or several holes were drilled in the back of the plates to simulate defects.
 In the numerical models, two kinds of defects were considered: either one circular hole In the numerical models, two kinds of defects were considered: either one circular hole
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 {{ :team:gdeliege:sheaor01.png?direct |}} {{ :team:gdeliege:sheaor01.png?direct |}}
-//Figure 1. Results obtained with my personal code, visualized with [[http://www.geuz.org/gmsh|Gmsh]]: (1) geometry of the plate with a circular hole, (2) vertical displacement of the upper face, (3) derivative  of the vertical displacement, (4) shearogram.//+//Figure 1. Results obtained with my own code (mesh and visualization with [[http://www.geuz.org/gmsh|Gmsh]]: (1) geometry of the plate with a circular hole, (2) vertical displacement of the upper face, (3) derivative  of the vertical displacement, (4) shearogram.//
  
 One can see in Fig. 1 the finite element results obtained when the plate is heated up with a flash, which is represented by a constant heat flux applied for a few microseconds. One can see in Fig. 1 the finite element results obtained when the plate is heated up with a flash, which is represented by a constant heat flux applied for a few microseconds.
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 and to apply a Fourier transform to the sequence of shearograms that are recorded over a period of time. and to apply a Fourier transform to the sequence of shearograms that are recorded over a period of time.
  
 +I made simulations with Teflon inserts at different positions, either close to the surface (1 mm) or deeper in the laminate (3 mm). I applied a sinusoidal heat flux at different frequencies, integrated in time and applied a Fourier transform to the shearograms. Fig. 2 shows the phase corresponding to the excitation frequency. Although the influence of the shallow Teflon insert is clearly visible, the deep insert is harder to detect. We had to decrease the excitation frequency to 0.1Hz to get a clear picture.
  
 +{{ :team:gdeliege:shearo03.png?direct |}}
 +//Figure 2. Phase offset of the Fourier transform of shearograms obtained with my own code. The defect is a Teflon insert and the heat flux is a sinusoidal function of time: (left) shallow insert (1mm), excitation 1Hz; (center) deep insert (3mm), excitation 1Hz; (right) deep insert (3mm), excitation 0.1Hz.//
  
- +=== References ===
-== References ==+
  
 [1] [[http://orbi.ulg.ac.be//handle/2268/169198|J.-F. Vandenrijt, N. Lièvre, M. Georges. Improvement of defect detection in shearography by using Principal Component Analysis. Proceedings of Conference on Interferometry XVII: Techniques and Analysis, 2014]] \\ [1] [[http://orbi.ulg.ac.be//handle/2268/169198|J.-F. Vandenrijt, N. Lièvre, M. Georges. Improvement of defect detection in shearography by using Principal Component Analysis. Proceedings of Conference on Interferometry XVII: Techniques and Analysis, 2014]] \\
 [2] G. Crabus. //Contrôle non-destructif par shearographie : développements expérimentaux de méthodes de stimulation thermique.// Master thesis, Université de Liège, 2014 \\ [2] G. Crabus. //Contrôle non-destructif par shearographie : développements expérimentaux de méthodes de stimulation thermique.// Master thesis, Université de Liège, 2014 \\
 [3] A. Lismonde. //Contrôle non-destructif par shearographie : simulations thermomécaniques de composites à renforts tissés.// Master thesis, Université de Liège, 2014 \\ [3] A. Lismonde. //Contrôle non-destructif par shearographie : simulations thermomécaniques de composites à renforts tissés.// Master thesis, Université de Liège, 2014 \\
 +\\ 
 +[[team:gdeliege|Back to main page]]
  
team/gdeliege/shearo.1439298622.txt.gz · Last modified: 2016/03/30 15:22 (external edit)

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