Preparation and Properties of Mechanically Robust, Colorless, and Transparent Aramid Films

Kim, Heesang; Noh, Jin-Hee; Kim, Young-Rae; Kim, Hyojin; Kwak, Giseop

doi:10.3390/polym16050575

Polymers

2024

DOI: 10.3390/polym16050575

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Preparation and Properties of Mechanically Robust, Colorless, and Transparent Aramid Films

Heesang Kim,

Jin-Hee Noh,

Young-Rae Kim

et al.

Abstract: In this study, various diamine monomers were used to synthesize aramid polymer films via a low-temperature solution condensation reaction with diacid chloride. For diamines with relatively high basicity, the reaction system became opaque because amine salt formation inhibited polymer synthesis. Meanwhile, low-basicity diamines with strong electron-withdrawing groups, such as CF3 and sulfone, were smoothly polymerized without amine salt formation to provide highly viscous solutions. The acid byproduct HCl gener… Show more

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2024

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Cited by 3 publications

References 21 publications

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Acrylamide‐Based Aramid‐Reinforced Soft Contact Lenses

Lee,

Yeo,

Noh

et al. 2024

Adv Eng Mater

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In this study, we attempted to manufacture acrylamide‐based soft contact lenses with high elastic modulus, tensile strength, water content, and oxygen transmissibility. For this purpose, colorless and transparent aramids were prepared using diamine monomers with strong electron‐withdrawing groups such as CF3 and sulfone groups. These aramids were used as reinforcing agents. These compounds were not only thermally and thermodynamically stable but also colorless, transparent, and mechanically very robust. They were very soluble in N,N‐dimethylacrylamide. Subsequently, reactive liquid resins were prepared simply by dissolving aramids in N,N‐dimethylacrylamide, and lenses were manufactured by the bulk polymerization of the liquid resins to which an appropriate amount of a crosslinking agent was added. Mechanically enhanced soft contact lenses were thus easily produced by the conventional manufacturing method. Some of the synthesized lenses maintained their original shape without phase separation even after hydration. These lenses had remarkably higher elastic modulus (up to 8.13 MPa) and tensile strength (up to 1.62 MPa) than the conventional lenses made of 2‐hydroxyethyl methacrylate. The synthesized lenses also had a high water content (up to 83.0%) and oxygen transmissibility (up to 26.8 Dk/t).This article is protected by copyright. All rights reserved.

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Acrylamide‐Based Aramid‐Reinforced Soft Contact Lenses

Lee,

Yeo,

Noh

et al. 2024

Adv Eng Mater

Self Cite

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Aramid‐Reinforced UV Curable Adhesive Resins for Use As an Interlayer in Laminated Glass

Lee,

Kwak

2024

Small

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Colorless, transparent, and mechanically robust aramid polymers are synthesized from two diamine monomers with strong electron‐withdrawing groups, using low‐temperature solution condensation with diacid chloride. The aramids dissolved very well in the liquid acrylamide monomers. When N,N‐dimethylacrylamide (DMA) is used as a reactive diluent, films with the desired features are produced from the hybrid aramid‐DMA resins via ultraviolet (UV) curing. The hybrid films are colorless and transparent in the visible region and showed an increase in the glass transition temperature, tensile strength, and elastic modulus in proportion to the aramid content. Laminated glass is manufactured using the hybrid resin as an interlayer, which exhibits very strong adhesion between the two sheets of glass, is not easily broken by an external impact, and do not scatter fragments. Moreover, the laminated glass do not distort images and functioned very effectively in UV blocking, soundproofing, and suppressing changes in the ambient temperature. Heat treatment further improves the light transmittance and impact resistance of the laminated glass. Laminated glass specimens with various fluorescence colors are also manufactured. Aramid‐reinforced films prepared using N,N‐diethylacrylamide as a reactive diluent underwent thermally induced phase separation in a wet state, providing smart glass with a privacy protection function.

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Fluorescence behaviors of perylene-dispersed super engineering plastic films

Kim,

Ham,

Cha

et al. 2024

Polymer

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Preparation and Properties of Mechanically Robust, Colorless, and Transparent Aramid Films

Cited by 3 publications

References 21 publications

Acrylamide‐Based Aramid‐Reinforced Soft Contact Lenses

Acrylamide‐Based Aramid‐Reinforced Soft Contact Lenses

Aramid‐Reinforced UV Curable Adhesive Resins for Use As an Interlayer in Laminated Glass

Fluorescence behaviors of perylene-dispersed super engineering plastic films

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