Chang Sun Hong scite author profile

In this paper, we present the simultaneous measurement of the strain and temperature during cures of various composite laminates using fiber Bragg grating/extrinsic Fabry-Perot interferometric (FBG/EFPI) hybrid sensors. The characteristic matrix of the hybrid sensor is derived analytically. For the fabrication of the three types of graphite/epoxy composite laminate, two FBG/EFPI hybrid sensors were embedded in each composite laminate in two mutually perpendicular directions. We performed the real-time measurement of fabrication strains and temperatures at two points within the composite laminates during the curing process in an autoclave. Through these experiments, FBG/EFPI sensors are proven to be a good choice for efficient smart monitoring of composite structures.

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Some thermodynamic properties of systems containing propylene carbonate and ethylene carbonate

Hong¹,

Wakslak²,

Finston³

et al. 1982

J. Chem. Eng. Data

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Prediction of Transverse Cracking and Stiffness Reduction in Cross-Ply Laminated Composites

Lim

Hong

1989

Journal of Composite Materials

154

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A modified shear lag analysis, taking into account the concept of in terlaminar shear layer, is employed to predict the onset of a transverse crack and multiple transverse cracking. In this analysis, the boundary conditions are satisfied for any trans verse crack spacing. The crack multiplication is simulated by adjusting the crack spacing. Based on this analysis the laminate stiffness reduction due to the multiple transverse crack ing is also evaluated in cross-ply laminated composites. The energy concept is utilized to assess the effect of 90° layer thickness and the constraining effect of 0° layer on the trans verse cracking behavior of cross-ply laminated composites. Predictions of the onset of a transverse crack and stiffness reduction due to transverse cracks are compared with those of previous analyses and existing experimental data. The present analysis is simple, yet its results show reasonable agreement with experimental results.

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Chang Sun Hong

Design of radar absorbing structures using glass/epoxy composite containing carbon black in X-band frequency ranges

Prediction of failure thermal cycles in graphite/epoxy composite materials under simulated low earth orbit environments

Cure monitoring of composite laminates using fiber optic sensors

Some thermodynamic properties of systems containing propylene carbonate and ethylene carbonate

Prediction of Transverse Cracking and Stiffness Reduction in Cross-Ply Laminated Composites

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