摘要
A multifunctional amine, 1,4-bis(2,4-diaminophenoxy)benzene(14 BDAPOB), was prepared and used as a novel hardener for novolac epoxy resin(ER). The structure of 14 BDAPOB was characterized with Fourier transform infrared(FT-IR) spectroscopy and differential scanning calorimetry(DSC). The curing kinetics of the novolac epoxy resin/1,4-bis(2,4-diaminophenoxy)benzene(ER/14 BDAPOB) system was studied by means of non-isothermal DSC experiments at five heating rates and determined by the Kissinger, Ozawa and Crane methods. The results showed that the activation energy Ea of the ER/14 BDAPOB(74.56 kJ/mol) system was higher than that of the epoxy resin/LCA-30(ER/LCA-30, 68.85 kJ/mol), where LCA-30 is a commercial modified diamine. The reaction order, frequency factor and the reaction rate constant at peak temperature of the two systems were calculated. The initial decomposition temperatures(Tonset) were 398.8 ℃(ER/14 BDAPOB)and 334.3 ℃(ER/LCA-30). The tensile shear strengths were 21.63 MPa(ER/14 BDAPOB) and 21.28 MPa(ER/LCA-30). The results showed that the two cured systems exhibited good thermal and mechanical properties.
A multifunctional amine, 1,4-bis(2,4-diaminophenoxy)benzene(14 BDAPOB), was prepared and used as a novel hardener for novolac epoxy resin(ER). The structure of 14 BDAPOB was characterized with Fourier transform infrared(FT-IR) spectroscopy and differential scanning calorimetry(DSC). The curing kinetics of the novolac epoxy resin/1,4-bis(2,4-diaminophenoxy)benzene(ER/14 BDAPOB) system was studied by means of non-isothermal DSC experiments at five heating rates and determined by the Kissinger, Ozawa and Crane methods. The results showed that the activation energy Ea of the ER/14 BDAPOB(74.56 kJ/mol) system was higher than that of the epoxy resin/LCA-30(ER/LCA-30, 68.85 kJ/mol), where LCA-30 is a commercial modified diamine. The reaction order, frequency factor and the reaction rate constant at peak temperature of the two systems were calculated. The initial decomposition temperatures(Tonset) were 398.8 ℃(ER/14 BDAPOB)and 334.3 ℃(ER/LCA-30). The tensile shear strengths were 21.63 MPa(ER/14 BDAPOB) and 21.28 MPa(ER/LCA-30). The results showed that the two cured systems exhibited good thermal and mechanical properties.
作者
YU Xinhai
CHEN Shuo
XU Yongfen
虞鑫海;CHEN Shuo;徐永芬(College of Chemistry, Chemical Engineering and Biotechnology , Donghua University;Key Laboratory of High Performance Fibers and Products, Ministry of Education, Donghua University;College of Material Science and Engineering, Donghua University)
