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Proceedings Paper

Characterization of impact damage in laminate composites with numerical simulation for health monitoring
Author(s): Seung Jo Kim; Seung Hoon Paik; Si Hyong Park
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Paper Abstract

The numerical simulation is performed for the damage induced acoustic emission and the wave propagation event of composite plates by the finite element transient analysis. The acoustic emission and the following wave motions from a predictable damage under a static loading is simulated to investigate the applicability of the explicit finite element method and the equivalent volume force model as a simulation tool of wave propagation and a modeling technique of an acoustic emission. For such a simple case of the damage event under static loading, various parameters affecting the wave motion are investigated for reliable simulations of the impact damage event. The numerical experiment is also conducted for simulating the full procedures from the impact phenomenon to the damage induced acoustic emission wave. The numerically reproduced wave signal is transformed by wavelet transform to analyze the frequency and the resolution characteristics between the acoustic emission signals of various damage mechanisms. The high velocity and the small wave length of the acoustic emission require a refined analysis with dense distribution of the finite element and a small time step. In order to fulfill the requirement for capturing the exact wave propagation and to cover the 3-D simulation, we utilize the parallel FE transient analysis code and the high performance computing (HPC) technology.

Paper Details

Date Published: 17 May 2005
PDF: 12 pages
Proc. SPIE 5764, Smart Structures and Materials 2005: Smart Structures and Integrated Systems, (17 May 2005); doi: 10.1117/12.610974
Show Author Affiliations
Seung Jo Kim, Seoul National Univ. (South Korea)
Seung Hoon Paik, Seoul National Univ. (South Korea)
Si Hyong Park, Seoul National Univ. (South Korea)

Published in SPIE Proceedings Vol. 5764:
Smart Structures and Materials 2005: Smart Structures and Integrated Systems
Alison B. Flatau, Editor(s)

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