School of Engineering University of Surrey Guildford, Surrey

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School of Engineering University of Surrey Guildford, Surrey GU2 7XH, UK A Physically-Based Model for the Notched Strength of Woven Quasi-Isotropic CFRP Laminates H.M.S. Belmonte a, S.L. Ogin a, P.A. Smith a, R. Lewin b a School of Engineering, University of Surrey b Rolls Royce plc. HMS Belmonte

Introduction In previous work, it was shown that in woven GFRP laminates with circular central holes there was matrix cracking and fibre tow fractures at the hole edge prior to ultimate load and catastrophic failure. HMS Belmonte

Introduction A physically based model (CDG Model) was shown to give good predictions of notched strength with out reliance of fitted parameters. Present work investigates the ability of the CDG model to predict the notched strength of quasi-isotropic woven CFRP laminates. HMS Belmonte

Experimental Material: Six different Quasi-isotropic CFRP Laminates. Reinforcement: Plain Weave (PW) and Five Harness Satin Weave (5HS). Thickness: 3 thicknesses investigated for each weave. Fibre : Toray T300 high strength carbon fibre. Matrix : Vantico MY750 epoxy resin system. Preparation: C-scanning, sectioning, end tabbing & notching Testing: Volume fraction, Mechanical testing and damage investigations. HMS Belmonte

Experimental Testing Mechanical Testing: Fracture Mechanics: Un-notched - Young's Modulus, Poisson’s Ratio and Un-notched Strength. Notched – 2.5, 5 and 10 mm Circular Centre Holes in 25 mm Wide Coupons and 20 mm Circular Centre Holes in 120 mm Wide Coupons. Fracture Mechanics: SEN Calibration & SEN Fracture. Damage Studies – Loading notched coupons to just below ultimate load. HMS Belmonte

Material Properties HMS Belmonte

HMS Belmonte

Analysis HMS Belmonte

Fracture Mechanics Properties HMS Belmonte

Damage Investigations HMS Belmonte

Layer 1 Layer 2 Layer 4 HMS Belmonte

Layer 4 Layer 8 Layer 7 Layer 10 HMS Belmonte

Notched Strength Modelling Whitney Nuismer (WN) failure criteria (Whitney Nuismer 1974) Semi-empirical Require elastic properties, unnotched and notched strength Parameter must be calculated for each laminate investigated Critical Damage Growth (CDG) fracture model (Soutis and Fleck 1990) Uses physically meaningful parameters Considers the growth of a notch edge crack

Whitney Nuismer Point Stress Criterion (PSC) - failure occurs when the stress reaches the unnotched laminate strength at a characteristic distance, d0, ahead of the notch. Average Stress Criterion (ASC) - failure occurs when the average stress over a distance from the notch edge, a0, reaches the unnotched laminate strength.

WN Criteria Strength Predictions WN Criteria Strength Predictions HMS Belmonte

HMS Belmonte

Critical Damage Growth Analysis is based upon the stable growth and subsequent catastrophic failure of a damage zone at the notch edge Crack Growth - defined using the ASC of WN model Failure predicted when stress required for crack propagation is equal to stress required for crack growth. Crack Propagation - given by a fracture mechanics approach

CDG Strength Predictions CDG Strength Predictions HMS Belmonte

HMS Belmonte

CDG Parametric Study HMS Belmonte

HMS Belmonte

Conclusions Range of mechanical property has been obtained for quasi-isotropic CFRP laminates Fracture from circular holes studied showing tow fracture occurring at hole edge prior to catastrophic failure WN models result in accurate predictions (ASC more accurate than PSC), however fitted parameters need to be re-evaluated for each new case CDG model produced good results for quasi-isotropic CFRP laminates as it did for quasi-isotropic GFRP laminates Parametric study showed that varying both the CDG input parameters by 10% only gives a variation of 10% in the notched strength predictions. HMS Belmonte