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Improvement adhesion durability of epoxy adhesive for steel/carbon fiber-reinforced polymer adhesive joint using imidazole-treated halloysite nanotube

Jong‐Hyun Kim, Hye Jin Kim, Donghyeon Lee, Seong Baek Yang, Seoyoon Yu, Hyeon‐Gook Kim, Bongkuk Seo, Sang Yong Nam, Hyoung Jun Lim, Choong‐Sun Lim, Dong-Jun Kwon

2025Advanced Composites and Hybrid Materials13 citationsDOIOpen Access PDF

Abstract

Surface treatment is essential for enhancing adhesion durability and minimizing substrate damage in hybrid structural materials. This study focuses on developing a hybrid adhesive lap joint by incorporating halloysite nanotube (HNT) with imidazole-functionalized surfaces (IM-HNT) into epoxy adhesives to improve adhesion performance and thermal shock resistance. The surface treatment of HNT with imidazole (IM) introduced a curing catalyst effect, reducing activation energy by 50% and accelerating curing time by 90%, as confirmed by Kissinger’s plot and permittivity measurements. The optimized IM-HNT content improved thermal stability by controlling thermal expansion and enhanced mechanical properties, achieving a 15% increase in tensile strength and a 50% enhancement in fracture toughness. The adhesion performance of steel/carbon fiber-reinforced polymer (CFRP) hybrid joints was evaluated through single-lap shear tests, demonstrating a 25% improvement in shear strength. Adhesion durability was tested under cyclic thermal shock conditions, showing a 30% increase as IM-HNT content increased. Finite element analysis (FEA) revealed reduced residual stress at the adhesive interface, supporting the enhanced thermal and mechanical robustness. This study highlights the potential of surface-treated halloysite nanotubes in hybrid adhesive lap joints to significantly improve adhesion durability and thermal shock resistance, addressing critical requirements for hybrid structural materials.

Topics & Concepts

HalloysiteAdhesiveMaterials scienceEpoxyDurabilityComposite materialCarbon nanotubeCarbon fiber reinforced polymerAdhesionPolymerEpoxy adhesiveJoint (building)Composite numberLayer (electronics)Structural engineeringEngineeringSynthesis and properties of polymersSilicone and Siloxane ChemistryEpoxy Resin Curing Processes