C. Ganesan scite author profile

This paper presents the fatigue behavior of Glass Fiber Reinforced Polymer (GFRP) composites at constant amplitude tension-tension loading conditions. A two parameter residual strength and fatigue life model has been proposed by accounting the effect of stress ratio when the structure undergoes continuous loading. A model is also developed to predict the fatigue life of GFRP composites based on fatigue endurance limit. Experiments were conducted on GFRP composite specimens to predict fatigue life and residual strength at various stress levels. Tests were also conducted to gain an understanding of the tensile behavior of GFRP composite specimens under different quasistatic strain rates. The lowest tensile strength resulting from strain rate studies has been used ultimately for conducting fatigue life and residual strength tests. Reliability of the proposed models has been verified with experimental results and with the models seen in literature.

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Effect of Corrosive Environment on Elasto-buckling Strength of GFRC Plate

Dash¹,

Sathishbab²,

Ganesan³

2010

Asian J. of Materials Science

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Modeling the residual strength and fatigue life of carbon fiber composites under constant amplitude loading

Ganesan

Joanna

2018

Mechanics of Advanced Materials and Structures

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A review on free vibration characteristics of natural fiber reinforced polymer composites

Kumar¹,

Kumar²,

Muthukumar³

et al. 2023

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C. Ganesan

Fatigue life modeling of FRP composites: A comprehensive review

Fatigue Life and Residual Strength prediction of GFRP Composites: An Experimental and Theoretical approach

Effect of Corrosive Environment on Elasto-buckling Strength of GFRC Plate

Modeling the residual strength and fatigue life of carbon fiber composites under constant amplitude loading

A review on free vibration characteristics of natural fiber reinforced polymer composites

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