A Model to Assess Progressive Fatigue Damage in GFRP Composites with layup systems of [0/±45], [90/±45], and [0/±45/0] over StressCycles
Publish place: Fifth International Composite Conference
Publish Year: 1395
نوع سند: مقاله کنفرانسی
زبان: English
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شناسه ملی سند علمی:
COMPOSIT05_083
تاریخ نمایه سازی: 6 مهر 1397
Abstract:
This study employs an earlier developed stiffness-based model to assess fatigue damage of glass fiber reinforced polymer (GFRP) composites with various layups of [0/±45], [90/±45], and [0/±45/0] under uniaxial stress cycles. The model is constructed based on triphasic damage cracking mechanism in FRP composites and corresponding stiffness reduction of unidirectional plies of 0°, angle-ply laminates of ±45°, and 90° as the number of cycles progresses. The weighting factors η90, η0 and η45 were defined to partition damage of plies in the composite layup systems. Experimental fatigue damage data of [0/±45], [90/±45], and [0/±45/0] composite laminates have fell between the predicted damage curves of 0°, 90° plies and ±45°, 0/±45° laminates over life cycles at various stress levels. Predicted damage results for GFRP laminates showed good agreement with experimental data
Keywords:
Fatigue damage , Stiffness degradation , GFRP [0/±45] [90/±45] and [0/±45/0] composite layup , Matrix cracking
Authors
g.r Ahmadzadeh
Postdoctoral fellow, ۲ Professor, Department of Mechanical Engineering, Ryerson University, ۳۵۰ Victoria Street, Toronto,Ontario M۵B ۲K۳, Canada
Varvani-Farahani
Postdoctoral fellow, ۲ Professor, Department of Mechanical Engineering, Ryerson University, ۳۵۰ Victoria Street, Toronto,Ontario M۵B ۲K۳, Canada