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NDT methods for Composites

Engineering
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DIFFERENT NDT METHODS FOR POLYMER AND COMPOSITE MATERIALS MOL-32246 INTRODUCTION TO NDT-TECHNIQUES Jere Ylianunti Wenxin Zhang Madan Patnamsetty Yaswanth Gowda
OUTLINE • Basic information of polymers and composites • Visual inspection • Acoustic emission inspection • Ultrasonic inspection • Radiographic inspection • Summary of NDT technology applied for polymers and composites
POLYMERS AND COMPOSITES • Usual properties: • Non-conductive • Practically not magnetic • Lighter and less dense than metals or ceramics • Metallic and ceramic composites blur the boundaries
VISUAL INSPECTION • First step in every inspection • As usable for polymeric materials as for any other material • Measuring devices, gauges, magnifying instruments, borescopes • Resolution of bare eye: at best tenths of millimeter • Optical microscopy: few hundreds of nanometers [1]
BORESCOPES • For reaching small compartments • Some magnification • Rigid, flexible scopes • videoscopes A videoscope [2]
PENETRATING LIQUIDS • A liquid sprayed on the surface of the component reveals surface anomalies • Many chemicals used, chemical stability of the component has to be confirmed • Penetrating liquid, developer liquid, cleaning agents • The developer liquid increases the visibility of the penetrants • Not usable for porous polymers (polyurethane foam, Styrofoam) [3]
ACOUSTIC EMISSION INSPECTION • Principle Detect transient elastic waves that generated by the rapid stress redistribution within a material • Application Structural health monitoring(SHM) , vessel testing, corrosion detection, production quality control, aging aircraft evaluation, advanced materials testing (composites, ceramics),etc. • Advantages High sensitivity, early and rapid detection of defects, real time monitoring, cost reduction, defective area location, etc. [4]
ACOUSTIC EMISSION FOR COMPOSITES • Acoustic wave source: 1) matrix cracking; 2) fiber breakage; 3) matrix-fiber interface de-bonding; 4) delamination • Unique advantages: 1) monitor whole structure; 2) remote inspection; 3) fast and easy to locate defect without scan over surface; 4) high sensitivity (possible to detect single fiber fracture ); 5) effectiveness irrelevant with orientation of flaw; • Limitations: 1) only detect flaws that are growing; 2) difficult to size flaws; 3) difficult to locate flaws in complex composites; 4) sensitivity greatly affected by ambient noise [5]
CASE STUDY [6]
ULTRA SONIC INSPECTION • High frequency sound waves are introduced into material and they are reflected back from surface or flaws. • Frequencies done between 0.1 to 25 MHz frequencies • Transducer transforms voltage pulse to ultrasonic pulse and transmit • Also exits UT technique non-contacting sample. (LASER ULTRASONIC INSPECTION SYSTEM - LUIS) developed by Ultra Spec. f plate crack 0 2 4 6 8 10 initial pulse crack echo back surface echo Oscilloscope, or flaw detector screen [7]
ULTRA SONIC INSPECTION TO COMPOSITES • Frequency ranged from 1-5 MHz due to increase in attenuation • The 4 more popular techniques for composites are o Pulse-echo o Through transmission Ultra sound (TTU) o Pitch catch o Guided waves • Different polymers can be tested are Laminated (Hand layup, Tape layup, Fibre placement, Resin transfer moulding), Sandwich (Honeycomb core, Foam core), Three-dimensional (3D) performs and other forms such as braided, stitched, or chopped fibre or tape, Bonds (Film or paste, Secondary or co-bond) [8]
ULTRA SONIC INSPECTION TO POLYMER COMPOSITES • A typical velocity of ultra sound across laminate is 2.8mm/μs and common ply thickness for aerospace application is 0.1-0.35 mm. • The values of attenuation and frequencies are subjected to specific materials (fibre, resin, ply type and lay type) • UT attenuation is measured in a material consolidation UT ATTENUATION = αx = ln(A0/A) Where α = attenuation coefficient A0 = initial pressure amplitude A = Pressure amplitude after transmission X = transmitted distance • Reflection co-efficient and Transmission co-efficient can be known by measuring Acoustic impedance Acoustic impedance Z = ρν v = acoustic velocity and ρ = density transmission co-efficient T = 2Z2/(Z1 + Z2) and Reflection co-efficient R = (Z2 – Z1)/ (Z2 + Z1) • Considering acoustic impedance of polymer composite is 470,000 g /cm2-s and for air it is 40 g/cm2-s thus we get Transmission co-efficient as 0.00017 and Refection co-efficient as 0.9998 thus the small value of Transmission co- efficient and large value of Reflection co-efficient gives us clear idea of delamination of composites
COMPARATIVE STUDY OF PULSE ECHO AND TTU IN GLASS/EPOXY COMPOSITES Parameter Unit E-glass Epoxy resin Density g/cm3 2.58 1.13 Tensile strength MPa 3500 65.4 Elastic modulus GPa 75 3.1 no: Glass content [Wt.%] Average wave velocity [m/s] Pulse-echo TTU 1 31 2461 2656 2 37.2 2580 2676 3 56.8 2949 2808 4 57.3 2963 2866 5 65.2 3045 2920 Properties of constituent materials Determined properties of investigated glass/epoxy specimens Ultrasonic wave velocity Vs Fibre content [9]
RADIOGRAPHIC INSPECTION TO COMPOSITES • X –Ray and neutron radiation are main sources. • Materials (parts of specimen) can be easily discriminated by the image formed on the film. High Electrical Potential Electrons -+ X-ray Generator or Radioactive Source Creates Radiation Exposure Recording Device Radiation Penetrate the Sample X-ray radiography Conventional Conventional radiography used to detect voids, Enhanced Enhanced X-ray radiography (Specially formulated liquids are used to enhance the contrast of radiographic images) Detects Delamination and Cracks, Fibre volume fraction and fibre alignment • The advantage over ultrasonic testing is that more thicknesses can be inspected and better resolution images can be produced. [4]
RADIOGRAPHY TESTING OF POLYMER COMPOSITES • The general equation of attenuation of radiation beam is I(E) = I0(E) e -μ(E)x Where I (E) = transmitted beam intensity as a function of energy E I0 (E) = Initial X-ray beam spectrum intensity, μ (E) = material linear attenuation co-efficient , x = thickness • Then we get an equation d (I)/I = -μ dx • Comparing the equation to plot it means the intensity % change is related to ply thickness. • Detects Planar defect like Delamination and knows volumetric features for Sandwich structures. [5]
CASE STUDY FOR INSPECTION OF POSSIBLE DEFECTS IN THE COMPOSITE STRUCTURE OF HELICOPTER ROTOR BLADES • MI-24 type helicopter, Dimensions are 10 m * 0.7 m, Weighs 110 Kg • A biological shield is made for larger sections • Voltage = 150 kV and Current = 3mA • Radiographed by Neutron radiation , Wet measurement by Neutron radiation and X-ray radiography • Most defects are Cavities, Holes, Cracks (near interfaces) • Defects not visible to X-ray and NR, but visible for Wet NR, this is due to Hydrogen – Neutron attenuation • If water is present prior comparison is too hard • Resin rich and poor areas is identified by X-ray method • The important study is about the defects in Adhesive filling and water percolation at sealing interfaces Water percolation into the honeycomb structure near the stiffener: (a) dry NR; (b) wet NR C) Resin rich area in the honeycomb structure [10]
NDT METHOD APPLICATIONS FOR COMPOSITES NDT Method Porosity Laminate Delamination and Disbond Skin-to- Core Disbond Cracks Surface Damage Water Ingress Wrinkles Visual R R Tap test L R Ultrasound TTU R R R R Ultrasound PE R R L R Bond testers R R L Radiography L L R R L Thermography L R R R Shearography L R R L L Electromagnetic L L Acoustic emission R R R = Recommended, L = Limited applicability [8]
REFERENCES: [1]:ASM Handbooks Online, Vol. 17, Nondestructive evaluation and quality control, Inspection equipment and techniques, Visual inspection, available at: http://products.asminternational.org/hbk/index.jsp, accessed on 16.2.2015 [2]:Picture, available at: http://www.toolstop.co.uk/sealey-vs8196-video-borescope-8.5mm-probe-p58066, accessed on 25.2.2015 [3]:Picture, available at: http://www.nde.com/pt.htm, accessed on 25.2.2015 [4]: Picture, available at: http://www.mistrasgroup.com/products/technologies/acousticemission.aspx, 03.03.2015 [5]:Picture, available at: http://www.muravin.com/downloads/Muravin%20- %20Acoustic%20Emission%20Science%20and%20Technology.pdf, 03.03.2015 [6]: S.E.Mechraoul, et, al. “Reliability of damage mechanism localisation by acoustic emission on glass/epoxy composite material plate”, Composite structure, vol. 94, pp.1483-1494, 2012. [7]:Picture https://www.nde-ed.org/GeneralResources/IntroToNDT/GenIntroNDT.htm [8]:Picture R. H. Bossi and V. Giurgiutiu, Polymer Composites in the Aerospace Industry. Elsvier,2015, pp. 413–448 [9]: Picture and data: available at :G. Wróbel and S. Pawlak, “A comparison study of the pulse-echo and through-transmission ultrasonics in glass / epoxy composites,” J. Achiev. Mater. Manuf. Eng., vol. 22, no. 2, pp. 51–54, 2007 [10]: Picture and data :M. Balaskó, I. Veres, G. Molnár, Z. Balaskó, and E. Sváb, “Composite structure of helicopter rotor blades studied by neutron- and X-ray radiography,” Phys. B Condens. Matter, vol. 350, no. 1–3, pp. 107–109, Jul. 2004.

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Different ndt-methods-for-polymer-and-composite-materials

  • 1. DIFFERENT NDT METHODS FOR POLYMER AND COMPOSITE MATERIALS MOL-32246 INTRODUCTION TO NDT-TECHNIQUES Jere Ylianunti Wenxin Zhang Madan Patnamsetty Yaswanth Gowda
  • 2. OUTLINE • Basic information of polymers and composites • Visual inspection • Acoustic emission inspection • Ultrasonic inspection • Radiographic inspection • Summary of NDT technology applied for polymers and composites
  • 3. POLYMERS AND COMPOSITES • Usual properties: • Non-conductive • Practically not magnetic • Lighter and less dense than metals or ceramics • Metallic and ceramic composites blur the boundaries
  • 4. VISUAL INSPECTION • First step in every inspection • As usable for polymeric materials as for any other material • Measuring devices, gauges, magnifying instruments, borescopes • Resolution of bare eye: at best tenths of millimeter • Optical microscopy: few hundreds of nanometers [1]
  • 5. BORESCOPES • For reaching small compartments • Some magnification • Rigid, flexible scopes • videoscopes A videoscope [2]
  • 6. PENETRATING LIQUIDS • A liquid sprayed on the surface of the component reveals surface anomalies • Many chemicals used, chemical stability of the component has to be confirmed • Penetrating liquid, developer liquid, cleaning agents • The developer liquid increases the visibility of the penetrants • Not usable for porous polymers (polyurethane foam, Styrofoam) [3]
  • 7. ACOUSTIC EMISSION INSPECTION • Principle Detect transient elastic waves that generated by the rapid stress redistribution within a material • Application Structural health monitoring(SHM) , vessel testing, corrosion detection, production quality control, aging aircraft evaluation, advanced materials testing (composites, ceramics),etc. • Advantages High sensitivity, early and rapid detection of defects, real time monitoring, cost reduction, defective area location, etc. [4]
  • 8. ACOUSTIC EMISSION FOR COMPOSITES • Acoustic wave source: 1) matrix cracking; 2) fiber breakage; 3) matrix-fiber interface de-bonding; 4) delamination • Unique advantages: 1) monitor whole structure; 2) remote inspection; 3) fast and easy to locate defect without scan over surface; 4) high sensitivity (possible to detect single fiber fracture ); 5) effectiveness irrelevant with orientation of flaw; • Limitations: 1) only detect flaws that are growing; 2) difficult to size flaws; 3) difficult to locate flaws in complex composites; 4) sensitivity greatly affected by ambient noise [5]
  • 10. ULTRA SONIC INSPECTION • High frequency sound waves are introduced into material and they are reflected back from surface or flaws. • Frequencies done between 0.1 to 25 MHz frequencies • Transducer transforms voltage pulse to ultrasonic pulse and transmit • Also exits UT technique non-contacting sample. (LASER ULTRASONIC INSPECTION SYSTEM - LUIS) developed by Ultra Spec. f plate crack 0 2 4 6 8 10 initial pulse crack echo back surface echo Oscilloscope, or flaw detector screen [7]
  • 11. ULTRA SONIC INSPECTION TO COMPOSITES • Frequency ranged from 1-5 MHz due to increase in attenuation • The 4 more popular techniques for composites are o Pulse-echo o Through transmission Ultra sound (TTU) o Pitch catch o Guided waves • Different polymers can be tested are Laminated (Hand layup, Tape layup, Fibre placement, Resin transfer moulding), Sandwich (Honeycomb core, Foam core), Three-dimensional (3D) performs and other forms such as braided, stitched, or chopped fibre or tape, Bonds (Film or paste, Secondary or co-bond) [8]
  • 12. ULTRA SONIC INSPECTION TO POLYMER COMPOSITES • A typical velocity of ultra sound across laminate is 2.8mm/μs and common ply thickness for aerospace application is 0.1-0.35 mm. • The values of attenuation and frequencies are subjected to specific materials (fibre, resin, ply type and lay type) • UT attenuation is measured in a material consolidation UT ATTENUATION = αx = ln(A0/A) Where α = attenuation coefficient A0 = initial pressure amplitude A = Pressure amplitude after transmission X = transmitted distance • Reflection co-efficient and Transmission co-efficient can be known by measuring Acoustic impedance Acoustic impedance Z = ρν v = acoustic velocity and ρ = density transmission co-efficient T = 2Z2/(Z1 + Z2) and Reflection co-efficient R = (Z2 – Z1)/ (Z2 + Z1) • Considering acoustic impedance of polymer composite is 470,000 g /cm2-s and for air it is 40 g/cm2-s thus we get Transmission co-efficient as 0.00017 and Refection co-efficient as 0.9998 thus the small value of Transmission co- efficient and large value of Reflection co-efficient gives us clear idea of delamination of composites
  • 13. COMPARATIVE STUDY OF PULSE ECHO AND TTU IN GLASS/EPOXY COMPOSITES Parameter Unit E-glass Epoxy resin Density g/cm3 2.58 1.13 Tensile strength MPa 3500 65.4 Elastic modulus GPa 75 3.1 no: Glass content [Wt.%] Average wave velocity [m/s] Pulse-echo TTU 1 31 2461 2656 2 37.2 2580 2676 3 56.8 2949 2808 4 57.3 2963 2866 5 65.2 3045 2920 Properties of constituent materials Determined properties of investigated glass/epoxy specimens Ultrasonic wave velocity Vs Fibre content [9]
  • 14. RADIOGRAPHIC INSPECTION TO COMPOSITES • X –Ray and neutron radiation are main sources. • Materials (parts of specimen) can be easily discriminated by the image formed on the film. High Electrical Potential Electrons -+ X-ray Generator or Radioactive Source Creates Radiation Exposure Recording Device Radiation Penetrate the Sample X-ray radiography Conventional Conventional radiography used to detect voids, Enhanced Enhanced X-ray radiography (Specially formulated liquids are used to enhance the contrast of radiographic images) Detects Delamination and Cracks, Fibre volume fraction and fibre alignment • The advantage over ultrasonic testing is that more thicknesses can be inspected and better resolution images can be produced. [4]
  • 15. RADIOGRAPHY TESTING OF POLYMER COMPOSITES • The general equation of attenuation of radiation beam is I(E) = I0(E) e -μ(E)x Where I (E) = transmitted beam intensity as a function of energy E I0 (E) = Initial X-ray beam spectrum intensity, μ (E) = material linear attenuation co-efficient , x = thickness • Then we get an equation d (I)/I = -μ dx • Comparing the equation to plot it means the intensity % change is related to ply thickness. • Detects Planar defect like Delamination and knows volumetric features for Sandwich structures. [5]
  • 16. CASE STUDY FOR INSPECTION OF POSSIBLE DEFECTS IN THE COMPOSITE STRUCTURE OF HELICOPTER ROTOR BLADES • MI-24 type helicopter, Dimensions are 10 m * 0.7 m, Weighs 110 Kg • A biological shield is made for larger sections • Voltage = 150 kV and Current = 3mA • Radiographed by Neutron radiation , Wet measurement by Neutron radiation and X-ray radiography • Most defects are Cavities, Holes, Cracks (near interfaces) • Defects not visible to X-ray and NR, but visible for Wet NR, this is due to Hydrogen – Neutron attenuation • If water is present prior comparison is too hard • Resin rich and poor areas is identified by X-ray method • The important study is about the defects in Adhesive filling and water percolation at sealing interfaces Water percolation into the honeycomb structure near the stiffener: (a) dry NR; (b) wet NR C) Resin rich area in the honeycomb structure [10]
  • 17. NDT METHOD APPLICATIONS FOR COMPOSITES NDT Method Porosity Laminate Delamination and Disbond Skin-to- Core Disbond Cracks Surface Damage Water Ingress Wrinkles Visual R R Tap test L R Ultrasound TTU R R R R Ultrasound PE R R L R Bond testers R R L Radiography L L R R L Thermography L R R R Shearography L R R L L Electromagnetic L L Acoustic emission R R R = Recommended, L = Limited applicability [8]
  • 18. REFERENCES: [1]:ASM Handbooks Online, Vol. 17, Nondestructive evaluation and quality control, Inspection equipment and techniques, Visual inspection, available at: http://products.asminternational.org/hbk/index.jsp, accessed on 16.2.2015 [2]:Picture, available at: http://www.toolstop.co.uk/sealey-vs8196-video-borescope-8.5mm-probe-p58066, accessed on 25.2.2015 [3]:Picture, available at: http://www.nde.com/pt.htm, accessed on 25.2.2015 [4]: Picture, available at: http://www.mistrasgroup.com/products/technologies/acousticemission.aspx, 03.03.2015 [5]:Picture, available at: http://www.muravin.com/downloads/Muravin%20- %20Acoustic%20Emission%20Science%20and%20Technology.pdf, 03.03.2015 [6]: S.E.Mechraoul, et, al. “Reliability of damage mechanism localisation by acoustic emission on glass/epoxy composite material plate”, Composite structure, vol. 94, pp.1483-1494, 2012. [7]:Picture https://www.nde-ed.org/GeneralResources/IntroToNDT/GenIntroNDT.htm [8]:Picture R. H. Bossi and V. Giurgiutiu, Polymer Composites in the Aerospace Industry. Elsvier,2015, pp. 413–448 [9]: Picture and data: available at :G. Wróbel and S. Pawlak, “A comparison study of the pulse-echo and through-transmission ultrasonics in glass / epoxy composites,” J. Achiev. Mater. Manuf. Eng., vol. 22, no. 2, pp. 51–54, 2007 [10]: Picture and data :M. Balaskó, I. Veres, G. Molnár, Z. Balaskó, and E. Sváb, “Composite structure of helicopter rotor blades studied by neutron- and X-ray radiography,” Phys. B Condens. Matter, vol. 350, no. 1–3, pp. 107–109, Jul. 2004.