石油化工高等学校学报
石油化工高等學校學報
석유화공고등학교학보
JOURNAL OF PETROCHEMICAL UNIVERSITIES
2014年
2期
1-5
,共5页
肖志丹%王婷%王传兴%高传慧%朱来响%武玉民
肖誌丹%王婷%王傳興%高傳慧%硃來響%武玉民
초지단%왕정%왕전흥%고전혜%주래향%무옥민
衣康酸二甲酯%对苯二甲酸二甲酯%熔融缩聚法%共聚酯%生物可降解
衣康痠二甲酯%對苯二甲痠二甲酯%鎔融縮聚法%共聚酯%生物可降解
의강산이갑지%대분이갑산이갑지%용융축취법%공취지%생물가강해
Dimethyl itaconate%Dimethyl terephthalate%Melt polycondensation%Copolyesters%Biodegradation
以对苯二甲酸二甲酯(DMT)、1,4-丁二醇和生物质来源的衣康酸二甲酯(DI)为原料,采用熔融缩聚法制备了一类生物可降解脂肪族/芳香族共聚酯-聚(对苯二甲酸丁二醇酯-co-衣康酸丁二醇酯)(PBTI),并考察了缩聚反应时间、缩聚温度和DMT与 DI 的物质的量比对 PBTI 相对分子质量和热力学性质的影响。利用1 H-NMR和 FT-IR对PBTI的结构进行了确认,同时 GPC、DSC和TGA测试结果表明,相对分子质量、玻璃化转变温度和熔点都受共聚酯中DMT与DI比例的影响。另外还探究了DMT与DI的物质的量比对该类共聚酯降解性的影响,结果表明,随脂肪族链段的增加共聚酯的降解性逐渐增加。
以對苯二甲痠二甲酯(DMT)、1,4-丁二醇和生物質來源的衣康痠二甲酯(DI)為原料,採用鎔融縮聚法製備瞭一類生物可降解脂肪族/芳香族共聚酯-聚(對苯二甲痠丁二醇酯-co-衣康痠丁二醇酯)(PBTI),併攷察瞭縮聚反應時間、縮聚溫度和DMT與 DI 的物質的量比對 PBTI 相對分子質量和熱力學性質的影響。利用1 H-NMR和 FT-IR對PBTI的結構進行瞭確認,同時 GPC、DSC和TGA測試結果錶明,相對分子質量、玻璃化轉變溫度和鎔點都受共聚酯中DMT與DI比例的影響。另外還探究瞭DMT與DI的物質的量比對該類共聚酯降解性的影響,結果錶明,隨脂肪族鏈段的增加共聚酯的降解性逐漸增加。
이대분이갑산이갑지(DMT)、1,4-정이순화생물질래원적의강산이갑지(DI)위원료,채용용융축취법제비료일류생물가강해지방족/방향족공취지-취(대분이갑산정이순지-co-의강산정이순지)(PBTI),병고찰료축취반응시간、축취온도화DMT여 DI 적물질적량비대 PBTI 상대분자질량화열역학성질적영향。이용1 H-NMR화 FT-IR대PBTI적결구진행료학인,동시 GPC、DSC화TGA측시결과표명,상대분자질량、파리화전변온도화용점도수공취지중DMT여DI비례적영향。령외환탐구료DMT여DI적물질적량비대해류공취지강해성적영향,결과표명,수지방족련단적증가공취지적강해성축점증가。
A series of biodegradable aliphatic/aromatic copolyesters-poly(butylene terephthalate-co-butylene itaconate)(PBTI) were synthesized by melt polycondensation using dimethyl terephthalate (DMT),1,4-butanediol(BD)and dimethyl itaconate (DI)as raw materials.The effects of polymerization time,temperature,as well as aliphatic/aromatic mole ratio on physical and thermal properties of the copolyesters were investigated.The structure of the copolyesters was studied by 1 H-NMR and FT-IR.DSC,TGA and GPC analysis clearly indicated that the molecular weight,glass-transition temperature and melting point were influenced by the ratio between DMT and DI in the final copolyesters.In addition,the effect of mole ratio between DMT and DI on the degradability of the copolyesters was studied.Results showed that the degradability of the copolyesters was gradually improved with the increase of the aliphatic units in the chain.
