Adhesive Properties of Epoxy Resin Composed of Woody Biomass Metabolic Intermediate, PDC

HASEGAWA Yuki, SHIKINAKA Kazuhiro, KAJITA Shinya, MASAI Eiji, KATAYAMA Yoshihiro, OTSUKA Yuichiro, NAKAMURA Masaya, OHARA Seiji, SHIGEHARA Kiyotaka

doi:10.11618/adhesion.48.17

Lignin is the abundant woody biomass next to (hemi)cellulose and is degraded to a specific dibasic acid, 2-pyrone-4,6-dicarboxylic acid: PDC, as a metabolic intermediate. In the present paper, the tensile adhesive strength of PDC-epoxy adhesives was studied. Relationships among curing temperature, species of curing agents, and tensile adhesive strengths of the PDC-epoxy adhesives were estimated. These values were compared to those of similar epoxy monomer of isophthalic acid, IPA, carrying a benzene ring instead of a 2-pyrone pseudo-aromatic ring of PDC as a reference. When succinic anhydride or 4-methylhexahydro-phthalic acid anhydride was used as curing agent, the PDC-epoxy adhesives exhibited larger tensile adhesive strength than IPA-epoxy adhesives at relatively low curing temperature of 130 °C. However, this situation is vice versa at elevated temperature. The tendency of the PDC-epoxy adhesive with pyromellitic anhydride was similar to the corresponding IPA-epoxy adhesive, the tensile adhesive strength became larger with increasing the curing temperature. By contrast, the PDC-epoxy adhesive with maleic anhydride exhibited the opposite tendency, i.e., the curing temperature increment caused smaller tensile adhesive strength. Against the plastics, the PDC-epoxy adhesives adhered polar materials, such as polycarbonate or polyamide. These characteristics might be derived from the polar nature of the 2-pyrone ring in PDC nucleus.

Adhesive Properties of Epoxy Resin Composed of Woody Biomass Metabolic Intermediate, PDC

Bibliographic Information

Search this article

Description

Journal

References(8)*help

Details 詳細情報について

Export

Report a problem