Tae-Kyung Hwang scite author profile

In this paper, unidirectional CFRP composites are considered as an electrical percolation system, which consists of electrically conductive carbon fibers and electrically nonconductive epoxy resin. Due to the contact behavior of the carbon fibers, CFRP has electrical conductivity in the width direction. Resistance measurements using the DC four-probe and the DC six-probe methods are conducted for the unidirectional CFRP specimens with different fiber volume fractions, i.e. different contact conditions. On the basis of the electrical anisotropy level obtained, the correlation between the measured anisotropy and the electrical ineffective length δec, over which a broken fiber recovers its current carrying capacity and a key parameter in electromechanical modeling of CFRP, is shown experimentally. The empirical relationship between the electrical anisotropy and δec obtained is also reviewed using a numerical calculation method based on the electric circuit theory of Kirchhoff’s rule and the Monte Carlo simulation technique.

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Evaluation of fiber material properties in filament-wound composite pressure vessels

Hwang

Park

Kim

2012

Composites Part A: Applied Science and Manufacturing

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Determination of the maximum strains experienced by composite structures using metal coated optical fiber sensors

Kim

Jeong

Lee

et al. 2013

Composites Science and Technology

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Probabilistic deformation and strength prediction for a filament wound pressure vessel

Hwang

Hong

Kim

2003

Composites Part B: Engineering

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Tae-Kyung Hwang

Composite damage model based on continuum damage mechanics and low velocity impact analysis of composite plates

Experimental and numerical study of the electrical anisotropy in unidirectional carbon-fiber-reinforced polymer composites

Evaluation of fiber material properties in filament-wound composite pressure vessels

Determination of the maximum strains experienced by composite structures using metal coated optical fiber sensors

Probabilistic deformation and strength prediction for a filament wound pressure vessel

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