Ultimate Strength Prediction of Carbon/Epoxy Tensile Specimens from Acoustic Emission Data

J. Mater. Sci. Technol. ›› 2010, Vol. 26 ›› Issue (8): 725-729.

• Modeling and Simulations • 上一篇下一篇

Ultimate Strength Prediction of Carbon/Epoxy Tensile Specimens from Acoustic Emission Data

arumugam,Naren Shankar.R,Sridhar,Joseph Stanley

Madras Institute of Technology; Anna University Chennai

收稿日期:2009-10-14 修回日期:2010-03-05 出版日期:2010-08-28 发布日期:2010-08-23
通讯作者: arumugam

Ultimate Strength Prediction of Carbon/Epoxy Tensile Specimens from Acoustic Emission Data

V. Arumugamy, R. Naren Shankar, B.T.N. Sridhar, A. Joseph Stanley

Department of Aerospace Engineering, Madras Institute of Technology, Anna University, Chennai, India

Received:2009-10-14 Revised:2010-03-05 Online:2010-08-28 Published:2010-08-23
Contact: V. Arumugam

摘要/Abstract

摘要：

The objective of this paper is to predict the residual strength of post impacted carbon/epoxy Composite laminates using online Acoustic Emission (AE) monitoring and Artificial Neural Networks (ANN). The laminates are made from 8 layers of Carbon (of woven mat form) with Epoxy as the binding medium by Hand lay-up Technique and cured at a pressure of 100 Kg/cm² under room temperature using a 30 ton capacity Compression molding machine for 24 hours. 21 number of ASTM D3039 standard tensile specimens are cut from the laminates. Sixteen specimens are subjected to impact load from three different heights using a Fractovis Plus Drop Impact Tester. Both impacted and non impacted specimens are subjected to uniaxial tension under Acoustic emission monitoring using a 100kN FIE servo hydraulic universal testing machine. The Dominant AE parameters such as Counts, Energy, Duration, Rise time and Amplitude are recorded during monitoring. This network can be used to predict the failure load of a similar specimen subjected to uniaxial tension under Acoustic Emission monitoring for certain percentage of the average failure load.

Abstract:

The objective of this paper was to predict the residual strength of post impacted carbon/epoxy composite laminates using an online acoustic emission (AE) monitoring and artificial neural networks (ANN). The laminates were made from eight-layered carbon (in woven mat form) with epoxy as the binding medium by hand lay-up technique and cured at a pressure of 100 kg/cm² under room temperature using a 30 ton capacity compression molding machine for 24 h. 21 tensile specimens (ASTM D3039 standard) were cut from the cross ply laminates. 16 specimens were subjected to impact load from three different heights using a Fractovis Plus drop impact tester. Both impacted and non-impacted specimens were subjected to uniaxial tension under the acoustic emission monitoring using a 100 kN FIE servo hydraulic universal testing machine. The dominant
AE parameters such as counts, energy, duration, rise time and amplitude are recorded during monitoring. Cumulative counts corresponding to the amplitude ranges obtained during the tensile testing are used to train the network. This network can be used to predict the failure load of a similar specimen subjected to uniaxial tension under acoustic emission monitoring for certain percentage of the average failure load.

Key words: Acoustic emission (AE), Carbon/epoxy laminate, Tensile testing, Artificial neural networks

arumugam Naren Shankar.R Sridhar Joseph Stanley. Ultimate Strength Prediction of Carbon/Epoxy Tensile Specimens from Acoustic Emission Data[J]. J. Mater. Sci. Technol., 2010, 26(8): 725-729.

V. Arumugamy R. Naren Shankar B.T.N. Sridhar A. Joseph Stanley. Ultimate Strength Prediction of Carbon/Epoxy Tensile Specimens from Acoustic Emission Data[J]. J Mater Sci Technol, 2010, 26(8): 725-729.

参考文献

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Ultimate Strength Prediction of Carbon/Epoxy Tensile Specimens from Acoustic Emission Data

Ultimate Strength Prediction of Carbon/Epoxy Tensile Specimens from Acoustic Emission Data

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