Cross-Linking Effect on Segmental Dynamics of Well-Defined Epoxy Resins

Atsuomi Shundo; Mika Aoki; Satoru Yamamoto; Keiji Tanaka

doi:10.1021/acs.macromol.1c00513

Cross-Linking Effect on Segmental Dynamics of Well-Defined Epoxy Resins

Atsuomi Shundo, Mika Aoki, Satoru Yamamoto, Keiji Tanaka

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

32 Citations (Scopus)

Abstract

Epoxy resins with a network structure, which are obtained by curing reactions of epoxy and amine compounds, are an important class of thermosetting resins. We here report the segmental dynamics of epoxy resins in which the three-dimensional network was well-defined and systematically varied. What we found by experiments in conjunction with atomistic molecular dynamics simulation was that when the cross-linking density in the epoxy resins increased, the glass transition temperature increased with an associated reduction in the spatial scale of the cooperative rearranging region and the increase in the dynamic heterogeneity. The knowledge here obtained should be useful for a better understanding of the physical properties of thermosetting polymers.

Original language	English
Pages (from-to)	5950-5956
Number of pages	7
Journal	Macromolecules
Volume	54
Issue number	13
DOIs	https://doi.org/10.1021/acs.macromol.1c00513
Publication status	Published - Jul 13 2021

All Science Journal Classification (ASJC) codes

Organic Chemistry
Polymers and Plastics
Inorganic Chemistry
Materials Chemistry

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10.1021/acs.macromol.1c00513

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title = "Cross-Linking Effect on Segmental Dynamics of Well-Defined Epoxy Resins",

abstract = "Epoxy resins with a network structure, which are obtained by curing reactions of epoxy and amine compounds, are an important class of thermosetting resins. We here report the segmental dynamics of epoxy resins in which the three-dimensional network was well-defined and systematically varied. What we found by experiments in conjunction with atomistic molecular dynamics simulation was that when the cross-linking density in the epoxy resins increased, the glass transition temperature increased with an associated reduction in the spatial scale of the cooperative rearranging region and the increase in the dynamic heterogeneity. The knowledge here obtained should be useful for a better understanding of the physical properties of thermosetting polymers. ",

author = "Atsuomi Shundo and Mika Aoki and Satoru Yamamoto and Keiji Tanaka",

note = "Funding Information: We wish to thank Professor Emeritus Toshiji Kanaya of Kyoto University for fruitful discussions and are also grateful for support from the JST-Mirai Program (JPMJMI18A2) (K.T.) and the JSPS KAKENHI for Scientific Research (B) (no. JP19H02780) (A.S.). Publisher Copyright: {\textcopyright} 2021 American Chemical Society.",

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AU - Shundo, Atsuomi

AU - Aoki, Mika

AU - Yamamoto, Satoru

AU - Tanaka, Keiji

N1 - Funding Information: We wish to thank Professor Emeritus Toshiji Kanaya of Kyoto University for fruitful discussions and are also grateful for support from the JST-Mirai Program (JPMJMI18A2) (K.T.) and the JSPS KAKENHI for Scientific Research (B) (no. JP19H02780) (A.S.). Publisher Copyright: © 2021 American Chemical Society.

PY - 2021/7/13

Y1 - 2021/7/13

N2 - Epoxy resins with a network structure, which are obtained by curing reactions of epoxy and amine compounds, are an important class of thermosetting resins. We here report the segmental dynamics of epoxy resins in which the three-dimensional network was well-defined and systematically varied. What we found by experiments in conjunction with atomistic molecular dynamics simulation was that when the cross-linking density in the epoxy resins increased, the glass transition temperature increased with an associated reduction in the spatial scale of the cooperative rearranging region and the increase in the dynamic heterogeneity. The knowledge here obtained should be useful for a better understanding of the physical properties of thermosetting polymers.

AB - Epoxy resins with a network structure, which are obtained by curing reactions of epoxy and amine compounds, are an important class of thermosetting resins. We here report the segmental dynamics of epoxy resins in which the three-dimensional network was well-defined and systematically varied. What we found by experiments in conjunction with atomistic molecular dynamics simulation was that when the cross-linking density in the epoxy resins increased, the glass transition temperature increased with an associated reduction in the spatial scale of the cooperative rearranging region and the increase in the dynamic heterogeneity. The knowledge here obtained should be useful for a better understanding of the physical properties of thermosetting polymers.

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Cross-Linking Effect on Segmental Dynamics of Well-Defined Epoxy Resins

Abstract

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