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OALib Journal期刊
ISSN: 2333-9721
费用:99美元
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快速增压制备非晶聚乳酸的等温冷结晶行为研究
DOI: 10.3724/SP.J.1105.2013.12377, PP. 1085-1091
Keywords: 非晶聚乳酸,快速增压,等温冷结晶,局部有序
Abstract:
通过快速增压法(RC)和自然冷却法(CN)分别制备出完全非晶的聚乳酸(PLA)样品,利用差示扫描量热仪(DSC)、偏光显微红外光谱仪(FTIR)和广角X-ray(WAXD)研究了2种非晶样品的初始结构、不同结晶温度下的等温冷结晶行为及最终的微观结构.结果表明,在温度为110、115、125、130、135及140℃下等温结晶时,RC样品的结晶速率明显高于CN样品;WAXD数据显示,结晶完成后RC样品的结晶度明显高于CN样品,但两者最终的晶粒尺寸大小相近,说明RC样品结晶过程中具有较高的成核密度;实验发现,PLA熔体在快速增压过程中很可能形成了某些类似物理老化样品中存在的局部有序结构,这些局部有序结构促进了晶核的形成,使冷结晶速率明显加快,结晶度提高.
| [1] | 1 Wang W H. Prog Mater Sci,2007,52(4):540~596
|
| [2] | 2 Turnbull D,Metall,Trans A,1981,12(2):217~230
|
| [3] | 5 Jia R,Shao C G,Su L,Huang D H,Liu X R,Hong S M.J Phys D:Appl Phys,2007,40(12):3763
|
| [4] | 8 Yu P,Wang W H,Wang R J,Lin SX,Liu X R,Hong S M,Bai H Y.Appl Phys Lett,2009,94(1):011910
|
| [5] | 13 Vasanthan N,Ly H,Ghosh S.J Phys Chem B,2011,115(31):9556~9563
|
| [6] | 14 Ou X,Cakmak M.Polymer,2008,49(24):5344~5352
|
| [7] | 15 Yang X,Kang S,Yang Y,Aou K,Hsu S L.Polymer,2004,45(12):4241~4248
|
| [8] | 16 Keum J K,Jeon H J,Song H H,Choi J I,Son Y K.Polymer,2008,49(22):4882~4888
|
| [9] | 17 Na B,Zou S F,Lv R H,Luo M B,Pan H Y,Yin Q.J Phys Chem B,2011,115(37):10844~10848
|
| [10] | 18 Pan P J,Liang Z C,Zhu B,Dong T,Inoue Y.Macromolecules,2008,41(18):8011~8019
|
| [11] | 19 Hong S M,Chen L Y,Liu X R,Wu X H,Su L.Rev Sci Instrum,2005,76(5):053905
|
| [12] | 20 Mano J F,Wang Y,Viana J C,Denchev Z,Oliveira M J.Macromol Mater Eng,2004,289(10):910~915
|
| [13] | 21 Krikorian V,Pochan D J.Macromolecules,2005,38(15):6520~6527
|
| [14] | 24 Pan P J,Zhu B,Dong T,Yazawa K.,Shimizu T,Tansho M,Inoue Y.J Chem Phys,2008,129(18):184902
|
| [15] | 25 Meaurio E,L E.Meaurio,López-Rodríguez N,Sarasua J R.Macromolecules,2006,39(26):9291~9301
|
| [16] | 26 Wasanasuk K,Tashiro K.Macromolecules,2011,44(24):9650~9660
|
| [17] | 3 Lv R H,Na B,Tian N N,Zou S F,Li Z J,Jiang S C.Polymer,2011,52(21):4979~4984
|
| [18] | 4 Chuah H H.Macromolecules,2001,34(20):6985~6993
|
| [19] | 6 Shao C G,An H N,Wang X,Jia R,Zhao B J,Ma Z,Li X Y,Pan G Q,Li L B,Hong S M.Macromolecules,2007,40(26):9475~9481
|
| [20] | 7 Hong S M,Liu X R,Su L.J Phys D:Appl Phys,2006,39(16):3684~3688
|
| [21] | 9 Nostrum C V,Veldhuis F J,Bos G W,Hennink W E.Polymer,2004,45(20):6779~6787
|
| [22] | 10 Meredith J C,Sormana1 J L,Keselowsky B G,García A J,Tona A,Karim A,Amis E J.Biomed Mater Res,2003 66(3):483~490
|
| [23] | 11 Li H,Huneault M A.Polymer,2007,48(23):6855~6866
|
| [24] | 12 Zou Guoxiang(邹国享),Zhang Xin(张鑫),Li Bingjian(李炳健),Zhao Caixia(赵彩霞),Li Jinchun(李锦春).Acta Polymerica Sinica(高分子学报),2012,(9):952~957
|
| [25] | 22 Krikorian V,Pochan D J.Macromolecules 2004,37(17):6480~6491
|
| [26] | 23 Pyda M,Wunderlich B.Macromolecules,2005,38(25):10472~10479
|
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