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DIGITAL LIBRARY: CAMX 2023 | ATLANTA, GA | OCTOBER 30-NOVEMBER 2

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Review on unique methods of Interfacial adhesion evaluation via wettability and electro-micromechanical techniques for various fibers/thermoset or thermoplastic composites

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Title: Review on unique methods of Interfacial adhesion evaluation via wettability and electro-micromechanical techniques for various fibers/thermoset or thermoplastic composites

Authors: Joung-Man Park, Jong-Hyun Kim, Dong-Jun Kwon, Hyung-Mi Lim, K. Lawrence DeVries

DOI: 10.33599/nasampe/c.23.0049

Abstract: As the demand for fiber-reinforced composite (FRC) has increased in various industries, composite materials have been manufactured in larger sizes and more complex shapes. Since the FRC has been manufactured in such larger and more complex shapes, wettability, one of the important factors in FRC manufacturing efficiency, has been thefocus of many researchers. This work explores various evaluation methods of the wettability between various different typed-fibers and thermosetting or thermoplastic matrices. Generally, work of adhesion, capillary, and permeability methods have been used to evaluate the wettability parameters between the fibers and the polymer matrix. Micromechanical techniques such as microdroplet and fragmentation tests can be also combined with wattability test, informing thermodynamic work of adhesion. Micromechanical interfacial tests can be correlated to macromechanical interfacial tests, which are more practical for FRC. Electrical resistance (ER) measurements also can contribute to the interfacial adhesion and interfacial shear strength (IFSS). These various parameters exhibit different scales of measurements such as surface energy, viscosity of the polymer, the fiber volume fraction, fiber orientation, and so on. Some applicable researches may include complementary studies between these evaluation methods. Since all of the interfacial evaluating methodologies can provide each their own benefits or disadvantages, these methods can be combined together to get more reliable method.

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Conference: CAMX 2023

Publication Date: 2023/10/30

SKU: TP23-0000000049

Pages: 13

Price: $26.00

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