Early Damage Detection in Composites during Fabrication and Mechanical Testing

Fully integrated monitoring systems have shown promise in improving confidence in composite materials while reducing lifecycle costs. A distributed optical fibre sensor is embedded in a fibre reinforced composite laminate, to give three sensing regions at different levels through-the-thickness of the plate. This study follows the resin infusion process during fabrication of the composite, monitoring the development of strain in-situ and in real time, and to gain better understanding of the resin rheology during curing. Piezoelectric wafer active sensors and electrical strain gauges are bonded to the plate after fabrication. This is followed by progressive loading/unloading cycles of mechanical four point bending. The strain values obtained from the optical fibre are in good agreement with strain data collected by surface mounted strain gauges, while the sensing regions clearly indicate the development of compressive, neutral, and tensile strain. Acoustic emission event detection suggests the formation of matrix (resin) cracks, with measured damage event amplitudes in agreement with values reported in published literature on the subject. The Felicity ratio for each subsequent loading cycle is calculated to track the progression of damage in the material. The methodology developed here can be used to follow the full life cycle of a composite structure, from manufacture to end-of-life.

[1]  R. E. Guerjouma,et al.  Mechanical behaviour and health monitoring by acoustic emission of sandwich composite integrated by piezoelectric implant , 2014 .

[2]  M. Gresil,et al.  Characterisation of Damaged Tubular Composites by Acoustic Emission, Thermal Diffusivity Mapping and TSR-RGB Projection Technique , 2017, Applied Composite Materials.

[3]  Yusuf Z. Menceloğlu,et al.  Fiber Bragg grating and etched optic sensors for flow and cure monitoring of resin transfer molded composite structures , 2011 .

[4]  Hélène Welemane,et al.  Damage detection in CFRP by coupling acoustic emission and infrared thermography , 2016 .

[5]  G. Tian,et al.  Surface Crack Detection for Carbon Fiber Reinforced Plastic (CFRP) Materials Using Pulsed Eddy Current Thermography , 2011, IEEE Sensors Journal.

[6]  E. Henneke,et al.  Signature analysis of acoustic emission from graphite/epoxy composites , 1977 .

[7]  Y. Y. Hung Shearography for non-destructive evaluation of composite structures , 1996 .

[8]  Aytaç Gören,et al.  Manufacturing of polymer matrix composites using vacuum assisted resin infusion molding , 2008 .

[9]  L. Vincent,et al.  Damage mechanisms characterisation of carbon fibre/epoxy composite laminates by both electrical resistance measurements and acoustic emission analysis , 1996 .

[10]  Amin Farrokhabadi,et al.  Failure analysis of (± 55°)9 filament-wound GRE pipes using acoustic emission technique , 2016 .

[11]  Branko Glisic Distributed Fiber Optic Sensing Technologies and Applications – An Overview , 2011 .

[12]  Giovanni Maria Carlomagno,et al.  REVIEW ARICLE: Recent advances in the use of infrared thermography , 2004 .

[13]  Ated Ben Khalifa,et al.  Mechanical characterization of glass/vinylester ±55° filament wound pipes by acoustic emission under axial monotonic loading , 2012 .

[14]  Hyun-Kyu Kang,et al.  Cure monitoring of composite laminates using fiber optic sensors , 2002 .

[15]  Vadakke Matham Murukeshan,et al.  Cure monitoring of smart composites using Fiber Bragg Grating based embedded sensors , 2000 .

[16]  A. Rotem,et al.  Determining the load-time history of fibre composite materials by acoustic emission , 1974 .

[17]  M. Iwamoto,et al.  A Study on Fracture Mechanisms of Short Fiber Reinforced PET Composite by the Acoustic Emission Method : Effects of Loading Direction and Fiber Content , 1990 .

[18]  Luca Schenato,et al.  Distributed Optical Fiber Sensing Based on Rayleigh Scattering , 2013 .

[19]  G. Mayr,et al.  Active thermography as a quantitative method for non-destructive evaluation of porous carbon fiber reinforced polymers , 2011 .

[20]  V. Giurgiutiu Tuned Lamb Wave Excitation and Detection with Piezoelectric Wafer Active Sensors for Structural Health Monitoring , 2005 .

[21]  A. G. Gibson,et al.  Use of acoustic emission to characterize corrosion fatigue damage accumulation in glass fiber reinforced polyester laminates , 1999 .

[22]  M. Benzeggagh,et al.  On the use of acoustic emission to investigate damage mechanisms in glass-fibre-reinforced polypropylene , 1994 .

[23]  Alfredo Güemes,et al.  Optical Fiber Distributed Sensing - Physical Principles and Applications , 2010 .

[24]  Y. Y. Hung,et al.  Review and comparison of shearography and active thermography for nondestructive evaluation , 2009 .

[25]  H. Jong,et al.  Transverse Cracking in a Cross-ply Composite Laminate - Detection in Acoustic Emission and Source Characterization , 2006 .

[26]  Renaud Gutkin,et al.  On acoustic emission for failure investigation in CFRP: Pattern recognition and peak frequency analyses , 2011 .

[27]  G. Luyckx,et al.  Assessing the damage evolution of composites containing embedded fibre optics , 2015 .

[28]  Rachid El Guerjouma,et al.  Mechanical behavior and health monitoring by Acoustic Emission of unidirectional and cross-ply laminates integrated by piezoelectric implant , 2014 .

[29]  Wieslaw J. Staszewski,et al.  Ultrasonic/Guided Waves for Structural Health Monitoring , 2005 .

[30]  Constantinos Soutis,et al.  Early Damage Detection in Composites by Distributed Strain and Acoustic Event Monitoring , 2017 .

[31]  Jinyang Zheng,et al.  A study on the failure mechanisms of carbon fiber/epoxy composite laminates using acoustic emission , 2012 .

[32]  Constantinos Soutis,et al.  Structural health monitoring techniques for aircraft composite structures , 2010 .

[33]  Peter J. de Groot,et al.  Real-time frequency determination of acoustic emission for different fracture mechanisms in carbon/epoxy composites , 1995 .

[34]  N. Takeda,et al.  ACOUSTIC EMISSION CHARACTERIZATION OF A GLASS-MATRIX COMPOSITE , 1992 .

[35]  Sang-Tae Kim,et al.  Characteristics of damage and fracture process of carbon fiber reinforced plastic under loading-unloading test by using AE method , 1997 .

[36]  V. Giurgiutiu,et al.  Guided wave propagation in composite laminates using piezoelectric wafer active sensors , 2013, The Aeronautical Journal (1968).

[37]  Thomas Böhlke,et al.  Damage evolution and fracture events sequence in various composites by acoustic emission technique , 2007 .

[38]  EVITA Project: Comparison Between Traditional Non-Destructive Techniques and Phase Contrast X-Ray Imaging Applied to Aerospace Carbon Fibre Reinforced Polymer , 2017, Applied Composite Materials.

[39]  Constantinos Soutis,et al.  Transverse Crack Detection in 3D Angle Interlock Glass Fibre Composites Using Acoustic Emission , 2016, Materials.

[40]  R. Mehan,et al.  Analysis of Composite Failure Mechanisms Using Acoustic Emissions , 1971 .

[41]  M. Pharaoh,et al.  Identification of failure modes in glass/polypropylene composites by means of the primary frequency content of the acoustic emission event , 2004 .

[42]  P. Cawley The rapid non-destructive inspection of large composite structures , 1994 .

[43]  Nathalie Godin,et al.  Integration of the Kohonen's self-organising map and k-means algorithm for the segmentation of the AE data collected during tensile tests on cross-ply composites , 2005 .

[44]  Stepan Vladimirovitch Lomov,et al.  Cluster analysis of acoustic emission signals for 2D and 3D woven glass/epoxy composites , 2014 .

[45]  M. Iwamoto,et al.  Fatigue Fracture Mechanism of Class A-SMC by Acoustic Emission Method , 1987 .

[46]  Kenjiro Komai,et al.  Investigations of the Fracture Mechanism of Carbon/Epoxy Composites by AE Signal Analyses , 1991 .

[47]  Maurice Whelan,et al.  Embedded fibre Bragg grating sensors in advanced composite materials , 2001 .

[48]  Louise P. Brown,et al.  Modelling and Simulating Textile Structures Using TexGen , 2011 .

[49]  Pierre Ferdinand,et al.  The Evolution of Optical Fiber Sensors Technologies During the 35 Last Years and Their Applications in Structure Health Monitoring , 2014 .

[50]  Constantinos Soutis,et al.  Distributed internal strain measurement during composite manufacturing using optical fibre sensors , 2015 .