高分子材料科学与工程
高分子材料科學與工程
고분자재료과학여공정
POLYMER MATERIALS SCIENCE & ENGINEERING
2001年
2期
105-108
,共4页
雷呜%于中振%欧玉春%杨桂生
雷嗚%于中振%歐玉春%楊桂生
뢰오%우중진%구옥춘%양계생
聚对苯二甲酸乙二醇酯%成核剂%结晶行为%力学性能
聚對苯二甲痠乙二醇酯%成覈劑%結晶行為%力學性能
취대분이갑산을이순지%성핵제%결정행위%역학성능
利用差示扫描量热仪(DSC)研究了碳酸钙、滑石粉等无机填料对PET等温和非等温结晶行为的影响,并与适于PET用的有机钠盐类成核剂NA作了对照。结果表明,滑石粉比碳酸钙更有利于PET结晶速率的提高,当滑石粉用量为5%(质量 ),其对PET等温结晶速率的贡献接近1%(质量)有机成核剂NA的贡献。而且,滑石粉的加入明显 提高了PET拉伸强度和弯曲模量,而成核剂NA的使用虽然有助于PET弯曲模量的提高,却使PET 拉伸强度、弯曲强度,特别是冲击强度减小。这可能是由于碳酸钙和滑石粉对PET是异相成核 ,对PET分子量影响不太大;而成核剂NA却是通过与PET反应生成PET钠盐而促进结晶的,其副作用是导致PET分子降解,表现为PET/NA体系的熔体粘度最低。
利用差示掃描量熱儀(DSC)研究瞭碳痠鈣、滑石粉等無機填料對PET等溫和非等溫結晶行為的影響,併與適于PET用的有機鈉鹽類成覈劑NA作瞭對照。結果錶明,滑石粉比碳痠鈣更有利于PET結晶速率的提高,噹滑石粉用量為5%(質量 ),其對PET等溫結晶速率的貢獻接近1%(質量)有機成覈劑NA的貢獻。而且,滑石粉的加入明顯 提高瞭PET拉伸彊度和彎麯模量,而成覈劑NA的使用雖然有助于PET彎麯模量的提高,卻使PET 拉伸彊度、彎麯彊度,特彆是遲擊彊度減小。這可能是由于碳痠鈣和滑石粉對PET是異相成覈 ,對PET分子量影響不太大;而成覈劑NA卻是通過與PET反應生成PET鈉鹽而促進結晶的,其副作用是導緻PET分子降解,錶現為PET/NA體繫的鎔體粘度最低。
이용차시소묘량열의(DSC)연구료탄산개、활석분등무궤전료대PET등온화비등온결정행위적영향,병여괄우PET용적유궤납염류성핵제NA작료대조。결과표명,활석분비탄산개경유리우PET결정속솔적제고,당활석분용량위5%(질량 ),기대PET등온결정속솔적공헌접근1%(질량)유궤성핵제NA적공헌。이차,활석분적가입명현 제고료PET랍신강도화만곡모량,이성핵제NA적사용수연유조우PET만곡모량적제고,각사PET 랍신강도、만곡강도,특별시충격강도감소。저가능시유우탄산개화활석분대PET시이상성핵 ,대PET분자량영향불태대;이성핵제NA각시통과여PET반응생성PET납염이촉진결정적,기부작용시도치PET분자강해,표현위PET/NA체계적용체점도최저。
Effects of inorganic fillers on isothermal and non-isothermal crystallization kinetics of polyethylene terephthalate(PET) were studied by using DSC in comparison with an organic uncleating agent(NA). T he results indicate that Talc has a better nucleating effect on PET crystallizat ion rate than CaCO3, 5 mass% Talc has a similar effect on PET isothermal cryst allizatio rate to 1 mass% nucleating agent NA. Moreover, the presence of Talc can improve the tensile strength and flexural modulus of PET. Although nucleating agent NA increase the flexural modulus of PET, it decreases the tensile strength and flexural strength, especially Izod impact strength of PET. The reasons are probably that CaCO3 and Talc have heterogeneous nucleation effects on the PET crystallization and little influence on the molecular weight of PET; however, the nucleating agent NA reacts with PET, causes the degradation of PET molecules and decreases the viscosity of PET/NA system.
