Three-dimensional (3D) modeling of the thermoelastic behavior of woven glass fiber-reinforced resin matrix composites

X. Deng; Nikhilesh Chawla

doi:10.1007/s10853-008-2982-6

Three-dimensional (3D) modeling of the thermoelastic behavior of woven glass fiber-reinforced resin matrix composites

X. Deng, Nikhilesh Chawla

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

The thermoelastic behavior of glass fiber-reinforced resin matrix composites is very important in several applications such as electronic packaging. Simulation of the composite behavior is complicated because of the complex nature of woven fiber architecture. In this study, we have conducted a numerical simulation of elastic and thermal expansion behavior of woven glass fiber-reinforced resin matrix composite. The simulations were compared to experimental data, showing excellent agreement with elastic properties and fairly good results for the thermal expansion coefficient of the composite.

Original language	English (US)
Pages (from-to)	6468-6472
Number of pages	5
Journal	Journal of Materials Science
Volume	43
Issue number	19
DOIs	https://doi.org/10.1007/s10853-008-2982-6
State	Published - Oct 2008

ASJC Scopus subject areas

General Materials Science
Mechanics of Materials
Mechanical Engineering

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title = "Three-dimensional (3D) modeling of the thermoelastic behavior of woven glass fiber-reinforced resin matrix composites",

abstract = "The thermoelastic behavior of glass fiber-reinforced resin matrix composites is very important in several applications such as electronic packaging. Simulation of the composite behavior is complicated because of the complex nature of woven fiber architecture. In this study, we have conducted a numerical simulation of elastic and thermal expansion behavior of woven glass fiber-reinforced resin matrix composite. The simulations were compared to experimental data, showing excellent agreement with elastic properties and fairly good results for the thermal expansion coefficient of the composite.",

author = "X. Deng and Nikhilesh Chawla",

note = "Funding Information: Fig. 6 Von Mises stress contour plots showing stress concentration in longitudinal fiber bundle, due to severe thermal expansion in the two directions, for a temperature change of about 130 °C Acknowledgements The authors acknowledge the financial support for this work from Isola Laminates Inc. We thank Mr. Tarun Amla for providing the experimental data for Young{\textquoteright}s modulus and coefficient of thermal expansion.",

year = "2008",

month = oct,

doi = "10.1007/s10853-008-2982-6",

language = "English (US)",

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pages = "6468--6472",

journal = "Journal of Materials Science",

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T1 - Three-dimensional (3D) modeling of the thermoelastic behavior of woven glass fiber-reinforced resin matrix composites

AU - Deng, X.

AU - Chawla, Nikhilesh

N1 - Funding Information: Fig. 6 Von Mises stress contour plots showing stress concentration in longitudinal fiber bundle, due to severe thermal expansion in the two directions, for a temperature change of about 130 °C Acknowledgements The authors acknowledge the financial support for this work from Isola Laminates Inc. We thank Mr. Tarun Amla for providing the experimental data for Young’s modulus and coefficient of thermal expansion.

PY - 2008/10

Y1 - 2008/10

N2 - The thermoelastic behavior of glass fiber-reinforced resin matrix composites is very important in several applications such as electronic packaging. Simulation of the composite behavior is complicated because of the complex nature of woven fiber architecture. In this study, we have conducted a numerical simulation of elastic and thermal expansion behavior of woven glass fiber-reinforced resin matrix composite. The simulations were compared to experimental data, showing excellent agreement with elastic properties and fairly good results for the thermal expansion coefficient of the composite.

AB - The thermoelastic behavior of glass fiber-reinforced resin matrix composites is very important in several applications such as electronic packaging. Simulation of the composite behavior is complicated because of the complex nature of woven fiber architecture. In this study, we have conducted a numerical simulation of elastic and thermal expansion behavior of woven glass fiber-reinforced resin matrix composite. The simulations were compared to experimental data, showing excellent agreement with elastic properties and fairly good results for the thermal expansion coefficient of the composite.

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Three-dimensional (3D) modeling of the thermoelastic behavior of woven glass fiber-reinforced resin matrix composites

Abstract

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