功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2012年
22期
3108-3113
,共6页
刘跃军%潘秀梅%刘亦武%谭井华
劉躍軍%潘秀梅%劉亦武%譚井華
류약군%반수매%류역무%담정화
纳米SiO2%纳米复合材料%结晶%阻隔性能
納米SiO2%納米複閤材料%結晶%阻隔性能
납미SiO2%납미복합재료%결정%조격성능
nano-SiO2%nano-composites%crystallization%barrier properties
选取3种偶联剂(KH550、KH560和KH570),将纳米SiO2进行改性,并采用熔融共混法分别与4种结晶性能不同的聚合物(HDPE、PP、PVC和PC)共混制备了一系列纳米复合材料(0~5%(质量分数)SiO2),并吹塑成薄膜。采用红外光谱(IR)、差示扫描量热仪(DSC)及扫描电镜(SEM)对纳米SiO2和复合材料的结构进行了表征,并对复合材料的力学性能、阻隔性能等进行了表征。结果表明,纳米SiO2与偶联剂均形成化学键合,改性后的纳米SiO2在各聚合物中分散较好,且在聚合物中起到异相成核的作用。在相同纳米SiO2含量下,SiO2对结晶性能不同的聚合物的结晶改善情况有差异,且纳米SiO2的异相成核作用在结晶性聚合物中更为明显,能使复合材料的结晶更为完善,结晶性能的改变与复合材料的阻隔性能能够形成一定关系。
選取3種偶聯劑(KH550、KH560和KH570),將納米SiO2進行改性,併採用鎔融共混法分彆與4種結晶性能不同的聚閤物(HDPE、PP、PVC和PC)共混製備瞭一繫列納米複閤材料(0~5%(質量分數)SiO2),併吹塑成薄膜。採用紅外光譜(IR)、差示掃描量熱儀(DSC)及掃描電鏡(SEM)對納米SiO2和複閤材料的結構進行瞭錶徵,併對複閤材料的力學性能、阻隔性能等進行瞭錶徵。結果錶明,納米SiO2與偶聯劑均形成化學鍵閤,改性後的納米SiO2在各聚閤物中分散較好,且在聚閤物中起到異相成覈的作用。在相同納米SiO2含量下,SiO2對結晶性能不同的聚閤物的結晶改善情況有差異,且納米SiO2的異相成覈作用在結晶性聚閤物中更為明顯,能使複閤材料的結晶更為完善,結晶性能的改變與複閤材料的阻隔性能能夠形成一定關繫。
선취3충우련제(KH550、KH560화KH570),장납미SiO2진행개성,병채용용융공혼법분별여4충결정성능불동적취합물(HDPE、PP、PVC화PC)공혼제비료일계렬납미복합재료(0~5%(질량분수)SiO2),병취소성박막。채용홍외광보(IR)、차시소묘량열의(DSC)급소묘전경(SEM)대납미SiO2화복합재료적결구진행료표정,병대복합재료적역학성능、조격성능등진행료표정。결과표명,납미SiO2여우련제균형성화학건합,개성후적납미SiO2재각취합물중분산교호,차재취합물중기도이상성핵적작용。재상동납미SiO2함량하,SiO2대결정성능불동적취합물적결정개선정황유차이,차납미SiO2적이상성핵작용재결정성취합물중경위명현,능사복합재료적결정경위완선,결정성능적개변여복합재료적조격성능능구형성일정관계。
Nano-composites were prepared by melt bending with different crystallization properties polymers (HDPE, PP, PVC and PC) and nano-SiO2 which were modified by different coupling agents (KH550, KH560 and KH570). FT-IR, DSC and SEM have been performed in order to characterize the surface structures of the modified nano-SiO2 and the microstructure of composites. The mechanical properties and barrier properties were tested at the same time. The results indicated that: the chemical bonds formed between the nano-SiO2 and the coupling agents and the particles dispersed well in the polymers, moreover performed a heterogeneous nu- cleation effect. Compared with the amorphous composites (PVC/nano-SiO2 and PC/nano-SiO2), the heteroge- neous nucleation effects of nano-SiO2 in crystalline composites (HDPE/ nano-SiO2 and PP/ nano-SiO2) were more obvious with the same content of nano-SiO2. Therefore the change of the crystallization of composites related to the barrier properties of composites.
