International Journal of Vehicle Structures and Systems

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Effect of Multiple Impacts on GFRP Laminates Exposed to Hydrolytic Ageing Using Acoustic Emission Monitoring


Affiliations
1 Dept. of Aeronautical Engg., SKP Engineering College, Tiruvannamalai, India
2 Dept. of Aeronautical Engg., Hindustan University, Chennai, India
3 Department of Aerospace Engg., Madras Institute of Technology, Anna University, Chennai, India
 

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In this study, pristine, single impacted and double impacted GFRP specimens were subjected to ageing by immersion in seawater at ambient temperature for different periods of time. The dominating failure mode of the aged specimens was found using acoustic emission monitoring. The water absorption capacity and flexural strength of specimen subjected to ageing were assessed to study the trend of variation. A reduction in residual strength was observed between single and double impacted specimens. Stress cycle plots from AE monitoring indicate that the onset of failure occurs sooner as the ageing time progresses. From those of impacted specimens, it can be seen that the onset of failure and damage initiation occurs sooner in double-impacted specimens than in single-impacted counterparts. Parametric peak frequency analysis shows that fiber-matrix debonding was the predominant mode of failure.

Keywords

GFRP, Epoxy Resin, Drop Weight Impact, Seawater Degradation, Acoustic Emission Monitoring.
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  • Effect of Multiple Impacts on GFRP Laminates Exposed to Hydrolytic Ageing Using Acoustic Emission Monitoring

Abstract Views: 200  |  PDF Views: 123

Authors

C. Ramesh
Dept. of Aeronautical Engg., SKP Engineering College, Tiruvannamalai, India
Joseph Stanley
Dept. of Aeronautical Engg., Hindustan University, Chennai, India
Vellayaraj Arumugam
Department of Aerospace Engg., Madras Institute of Technology, Anna University, Chennai, India
Jefferson Andrew
Department of Aerospace Engg., Madras Institute of Technology, Anna University, Chennai, India
S. Arunabharathi
Department of Aerospace Engg., Madras Institute of Technology, Anna University, Chennai, India

Abstract


In this study, pristine, single impacted and double impacted GFRP specimens were subjected to ageing by immersion in seawater at ambient temperature for different periods of time. The dominating failure mode of the aged specimens was found using acoustic emission monitoring. The water absorption capacity and flexural strength of specimen subjected to ageing were assessed to study the trend of variation. A reduction in residual strength was observed between single and double impacted specimens. Stress cycle plots from AE monitoring indicate that the onset of failure occurs sooner as the ageing time progresses. From those of impacted specimens, it can be seen that the onset of failure and damage initiation occurs sooner in double-impacted specimens than in single-impacted counterparts. Parametric peak frequency analysis shows that fiber-matrix debonding was the predominant mode of failure.

Keywords


GFRP, Epoxy Resin, Drop Weight Impact, Seawater Degradation, Acoustic Emission Monitoring.



DOI: https://doi.org/10.4273/ijvss.6.1-2.05