摘要
Abstract
Imidazole barbiturate(BAM)was synthesized through an acid-base neutralization reaction between imidazole(MI)and barbituric acid(BA)in an aqueous solution and employed as a latent curing agent for epoxy res-in(EP)systems.This study systematically characterized the molecular structure of BAM using Fourier-transform in-frared spectroscopy and proton nuclear magnetic resonance spectroscopy.The latent curing behavior,storage stability,and mechanical performance of the EP/BAM system were evaluated using differential scanning calorimetry,rheological analysis,dynamic mechanical analysis,and mechanical property testing.The results showed that the introduction of barbituric acid significantly reduced the curing activity of imidazole,shifting the curing exothermic peak of the EP/BAM system approximately 60℃higher compared to the EP/MI system.The EP/BAM system exhibited excellent stor-age stability with a room-temperature storage period of up to 63 days,while achieving rapid curing under moderate-temperature conditions.Additionally,the cured EP/BAM system maintained a glass transition temperature of 163.9℃and showed higher strength and modulus compared to the EP/MI system,demonstrating superior thermal resistance and mechanical performance.In conclusion,the EP/BAM system exhibits remarkable advantages in latency,storage stability,and post-curing performance,providing a novel and efficient strategy for the development of one-component epoxy resin systems.关键词
单组分环氧树脂/潜伏性固化剂/咪唑/耐热性/力学性能Key words
one-component epoxy resin/latent curing agent/imidazole/thermal resistance/mechanical performance分类
通用工业技术
