Spelling suggestions: "subject:"composites laminated""
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Mechanical characterisation of hybrid glass/carbon fibre-reinforced plasticsKretsis, George January 1987 (has links)
No description available.
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Initiation and propagation of transverse cracking in composite laminatesYe, J., Lam, Dennis, Zhang, D. January 2010 (has links)
The matrix cracking transverse to loading direction is usually one of the most common observations of damages in composite laminates. The initiation and propagation of transverse cracks have been a longstanding issue in the last few decades. In this paper, a three-dimensional stress analysis method based on the state space approach is used to compute the stresses, including the inter-laminar stresses near transverse cracks in laminated composites. The stress field is then used to estimate the energy release rate, from which the initiation and propagation of transverse cracking are predicted. The proposed method is illustrated by numerical solutions and is validated by available experimental results. To the best knowledge of the authors, the predictions of crack behaviour for non-symmetrical laminates and laminates subject to in-plane shearing are presented for the first time in the literature.
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Fatigue Behavior of AS-4/PEEK APC-2 Composite Laminates at Elevated TemperaturesChen, Wei-Ren 08 July 2002 (has links)
ABSTRACT
This thesis is aimed to investigate the fatigue life, strength, damage and fracture process in AS-4/PEEK APC-2 composite laminates subjected to both elevated temperature and loading sequences.
Our main work is experiment. All specimens are 16-ply thick with lay-up of quasi-isotropic laminates. We accomplish static tensile test, fatigue test of constant stress amplitude, and two-step loading at elevated temperatures, i. e., 75¢Jand 125¢J. The residual strength and stiffiness are obtained. We also use Miner¡¦s rule to analyze the data acquired from experiment and to discuss the fatigue properties and fracture mechanism subjected to both elevated temperatures and loading sequences of combination. Finally, we perform ultrasonic C-Scan non-destructive test to examine laminates. In comparsion with experimental data, we can further understand the damage process and fracture mechanism in laminates.
The experimental results can be concluded as follows. The damage
of specimens at 125¢J is more serious than that at 75¢J.Furthermore, if
the loading sequence is low-high, the cumulative damage value will be
smaller than 1,whilst it will be larger than 1 due to reverse loading
sequence. The sequence of decreasing residual strength and residual
stiffiness of specimen associated with the temperature and stress level in
combination is high temperature¡Ðlow stress, low temperature¡Ðlow
stress, high temperature¡Ðhigh stress and low temperature¡Ðhigh stress.
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