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Optical Non-Destructive Testing (NDT)

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Title: No Slide Title Author: stuart murray Last modified by: stuart murray Created Date: 4/14/2004 12:51:08 PM Document presentation format: On-screen Show – PowerPoint PPT presentation

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Title: Optical Non-Destructive Testing (NDT)


1
Optical Non-Destructive Testing (NDT)
Real-time electronic holography Speckle Shearing
Interferometry (Shearography)
  • Full-field optical technique
  • Capable of detecting surface and sub-surface
    defects in components
  • In real-time
  • In situ
  • In service
  • Over a wide area
  • Through coatings- without surface preparation

Pseudo-coloured output
2
Optical NDT
Schematic of a portable shearography system
Optical system containing laser and imaging optics
PC and monitor
Component under test
3
Optical NDT
AOS Products
  • Robust field portable optical systems
  • Customised mounting arrangements for optical
    systems
  • User friendly software
  • Customised loading mechanisms

AOS Services
  • Research and Development
  • Design Manufacture of Optical Systems and
    Mounting Units
  • Inspection Services

4
Optical NDT
Shearography
  • Based on the capture and processing of images of
    a test component illuminated by laser light
  • Image taken before and after the component is
    subjected to a deformation. The deformation may
    be the result of, for example
  • Internal pressure modification
  • Mechnaical loading
  • Localised heating
  • Difference image provide strain profile
    information

5
Optical NDT
Defect detection using shearography
  • Difference image reveals
  • Normal Deformations of component
  • Abnormal deformations of the component induced by
    defects
  • Defect are detected through the observation of
    fringe distortion/concentrations
  • The size and location of a defect are directly
    related to the size and location of the fringe
    anomaly
  • The nature of the defect may be determined from
    the signature of the fringe anomaly

6
Optical NDT
Schematic of a shearography system
7
Optical NDT
NDT using shearography
  • Essentially becomes the development of a
    practical means of loading the component that
    can reveal the defects
  • Loading methods widely used include
  • Mechanical Strain measurement and crack
    detection in homogenous and composite materials
  • Thermal Delamination and impact damage in
    composite materials
  • Vacuum General purpose for composites
  • Internal Pressurisation General purpose for
    pressure vessels and piping
  • Acoustic Resonant frequencies and modal
    characteristics analysis

8
Optical NDT
Fitness for Purpose information using
shearography
  • By imposing loading similar to that experienced
    by the component in service, only those defects
    that serve to reduce the strength/performance of
    the component can be detected
  • Information aboutcriticality of the defect is
    obtained
  • Cosmetic defects can be ignored

9
Optical NDT
Benefits
  • Reduce inspection time and costs
  • whole component inspection viable
  • real-time, in-situ, in service inspections of
    components
  • surface preparation requirements eliminated
  • Produce real-time data during inspection
  • permanent computer based records
  • Fitness for purpose information
  • Identify significant defects

10
Optical NDT
Applications
  • Gas Petrochemical
  • Pressure vesssels and piping (homogeneous and
    composites)
  • Automotive
  • engine components, body panels, dash boards
  • Aerospace
  • Composite panels, turbineblades, tyres
  • Marine
  • Boat body panels, pressure vessels

11
Examples of Applications
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Thank you
S.C.Murray 2004
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