Combined with the advantages of low melting point,high thermal stability and strong acidity,a multipleSO_3H functioned ionic liquid(MIL) was developed successfully as a curing agent to promote the curing reaction of...Combined with the advantages of low melting point,high thermal stability and strong acidity,a multipleSO_3H functioned ionic liquid(MIL) was developed successfully as a curing agent to promote the curing reaction of phthalonitrile-terminated poly(phthalazinone ether nitrile)(PPEN-Ph).The curing kinetics over differential scanning calorimetry(DSC) showed that both the initial curing temperature Tp0' and apparent activation energy Ea'(based on Kissinger equation) were reduced significantly over MIL(207.9℃ and 101.5 kJ/mol) compared to the common curing agent ZnCl_2(268.5℃ and 201.5 kJ/mol).Moreover,under identical curing conditions,the resulting thermosetting resin over former(Td5%=526.1℃) showed better thermal stability than that over latter(Td5%=512.1 ℃).These results indicated that MIL should be a good candidate as a curing agent for phthalonitrile resins.展开更多
基金supported by National Natural Science Foundation of China(No.51273029)the Fundamental Research Funds for the Central Universities(No.DUT15RC(3)032)+1 种基金General Project of Scientific Research of the Education Department of Liaoning Province(No.L2015116)a collaborative project from Guangdong Provincial Key Laboratory of Mineral Physics and Materials(No.GLMPM-010)
文摘Combined with the advantages of low melting point,high thermal stability and strong acidity,a multipleSO_3H functioned ionic liquid(MIL) was developed successfully as a curing agent to promote the curing reaction of phthalonitrile-terminated poly(phthalazinone ether nitrile)(PPEN-Ph).The curing kinetics over differential scanning calorimetry(DSC) showed that both the initial curing temperature Tp0' and apparent activation energy Ea'(based on Kissinger equation) were reduced significantly over MIL(207.9℃ and 101.5 kJ/mol) compared to the common curing agent ZnCl_2(268.5℃ and 201.5 kJ/mol).Moreover,under identical curing conditions,the resulting thermosetting resin over former(Td5%=526.1℃) showed better thermal stability than that over latter(Td5%=512.1 ℃).These results indicated that MIL should be a good candidate as a curing agent for phthalonitrile resins.
