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Fatigue analysis of unidirectional GFRP composites under combined bending and torsional loads
Faculty
Science
Year:
2007
Type of Publication:
Article
Pages:
599-605
Authors:
Khashaba, U. A, El-Assal, Ahmed M
DOI:
10.1016/j.compstruct.2006.02.026
Journal:
COMPOSITE STRUCTURES ELSEVIER SCI LTD
Volume:
79
Research Area:
Materials Science
ISSN
ISI:000246900000015
Keywords :
fatigue, unidirectional glass fiber, polyester, composites, combined loads, torsion/bending, pure torsion
Abstract:
Fatigue behavior of unidirectional glass fiber reinforced polyester (GFRP) composites at room temperature under in-phase combined torsion/bending loading was investigated. All fatigue tests were carried out on constant-deflection fatigue machine with frequency of 25 Hz. A 30\% reduction from the initial applied moments was taken as a failure criterion in the combined torsion/bending fatigue tests of the composite materials. A series of pure torsional fatigue tests were conducted to construct the failure contour of GFRP composites using different failure theories. The obtained S-N curves from combined torsion/bending tests were compared with both, pure torsion fatigue test results and published results of pure bending fatigue tests of GFRP rods. Pictures by scanning electron microscope were used to closely examine the failure mode of the tested specimens under combined torsion/bending loading. The results showed that, the unidirectional glass fiber reinforced polyester composites have poor torsional fatigue strength compared with the published results of pure bending fatigue strength. Endurance limit value (calculated from S-N equation at N = 10(7) cycles) of GFRP specimens tested under combined torsion/bending loading equals 8.5 times the endurance limit of pure torsion fatigue. On the other hand the endurance limit of combined torsion/bending fatigue strength approximately half the fatigue limit of pure bending fatigue strength. The predicted values of combined torsion/bending fatigue strength at different number of cycles, using the published failure theory are in good agreement with the experimental data. For the investigated range of fiber volume fractions (V-f) it was found that higher stress levels are needed to produce fatigue failure after the same number of cycles as V-f increases. (C) 2006 Elsevier Ltd. All rights reserved.
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