The nucleation effect of N,N-bis(benzoyl) alkyl diacid dihydrazides on crystallization of biodegradable poly(l-lactic acid)

详细信息    查看全文

• 作者：Yanhua Cai (1) (2)
  Shifeng Yan (2)
  Yinqing Fan (2)
  Zhuyi Yu (2)
  Xuesi Chen (3)
  Jingbo Yin (2)
  
• 关键词：Poly(l ; lactic acid) ; Nucleating agent ; Crystallization ; Benzoyl hydrazine
• 刊名：Iranian Polymer Journal
• 出版年：2012
• 出版时间：July 2012
• 年：2012
• 卷：21
• 期：7
• 页码：435-444
• 全文大小：591KB
• 参考文献：1. Liao X, Nawaby AV, Whitfield PS (2010) Carbon dioxide-induced crystallization in poly(l- lactic acid) and its effect on foam morphologies. Polym Int 59:1709-718 CrossRef
  2. Badrinarayanan P, Dowdy KB, Kessler MR (2010) A comparison of crystallization behavior for melt and cold crystallized poly(l- lactide) using rapid scanning rate calorimetry. Polymer 51:4611-618 CrossRef
  3. Okamura Y, Kabata K, Kinoshita M, Saitoh D, Takeoka S (2009) Free-standing biodegradable poly(lactic acid) nanosheet for sealing operations in surgery. Adv Mater 21:4388-392 CrossRef
  4. Zhao YY, Qiu ZB, Yang WT (2008) Effect of functionalization of multiwalled nanotubes on the crystallization and hydrolytic degradation of biodegradable poly(l- lactide). J Phys Chem B 112:16461-6468 CrossRef
  5. Pan PJ, Zhu B, Inoue Y (2007) Enthalpy relaxation and embrittlement of poly(l- lactide) during physical aging. Macromolecules 40:9664-671 CrossRef
  6. Tuominen J, Kylma J, Kapanen A, Venelampi O, Itavaara M, Seppala J (2002) Biodegradation of lactic acid based polymers under controlled composting conditions and evaluation of the exotoxicological impact. Biomacromolecules 3:445-55 CrossRef
  7. Li XJ, Zhong GJ, Li ZM (2010) Non-isothermal crystallization of poly(l- lactide) (PLLA) under quiescent and steady shear conditions. Chin J Polym Sci 28:357-66 CrossRef
  8. Viljanmaa M, S?derg?rd A, T?rm?l? P (2002) Lactic acid based polymers as hot melt adhesives for packaging applications. Int J Adhes Adhes 22:219-26 CrossRef
  9. Viljanmaa M, S?derg?rd A, T?rm?l? P (2002) Adhesion properties of lactic acid based hot melt adhesives and their storage stability in different packaging applications. Int J Adhes Adhes 22:447-57 CrossRef
  10. Viljanmaa M, S?derg?rd A, T?rm?l? P (2002) Hydrolytic and environmental degradation of lactic acid based hot melt adhesives. Polym Degrad Stab 78:269-78 CrossRef
  11. Guo WJ, Bao FC, Wang Z (2008) An overview of natural fiber and biodegradable plastics composites. China Wood Ind 22:12-3
  12. Yin JB, Yu ZY, Wang YJ, Lu XC, Yan SF, Chen XS (2008) Preparation of poly(l -lactic acid)/luffa fiber composites (Chinese). China Patent CN101177523A
  13. Pirkka M, Timo P, Pertti T, Timo W (2002) Strength retention properties of self-reinforced poly l- lactide (SR-PLLA) sutures compared with polyglyconate (Maxon^R) and polydioxanone (PDS) sutures. An in vitro study. Biomaterials 23:2587-592 CrossRef
  14. Keskin DS, Tezcaner A, Korkusuz P, Korkusuz F, Hasirci V (2005) Collagen–chondroitin sulfate-based PLLA–SAIB-coated rhBMP-2 delivery system for bone repair. Biomaterials 26:4023-034 CrossRef
  15. Li HB, Huneault MA (2007) Effect of nucleation and plasticization on the crystallization of poly(lactic acid). Polymer 48:6855-866 CrossRef
  16. Kolstad JJ (1996) Crystallization kinetics of poly(l- lactide- / co- / meso-lactide). J Appl Polym Sci 62:1079-091 CrossRef
  17. Ke TY, Sun XZ (2003) Melting behavior and crystallization kinetics of starch and poly(lactic acid) composites. J Appl Polym Sci 89:1203-210 CrossRef
  18. Li XX, Yin JB, Yu ZY, Yan SF, Lu XC, Wang YJ, Cao B, Chen XS (2009) Isothermal crystallization behavior of poly(l- lactic acid)/organo-montmorillonite nanocomposites. Polym Compos 30:1338-344 CrossRef
  19. Huang SM, Hwang JJ, Liu HJ, Lin LH (2010) Crystallization behavior of poly(l- lactic acid)/montmorillonite nanocomposites. J Appl Polym Sci 117:434-42
  20. Yan SF, Yin JB, Yang Y, Dai ZZ, Ma J, Chen XS (2007) Surface-grafted silica linked with l- lactic acid oligomer: a novel nanofiller to improve the performance of biodegradable poly(l- lactide). Polymer 48:1688-694 CrossRef
  21. Pan PJ, Liang ZC, Cao A, Inoue Y (2009) Layered metal phosphonate reinforced poly(l- lactide) composites with a highly enhanced crystallization rate. ACS Appl Mater Interfaces 1:402-11 CrossRef
  22. Zhang DH, Kandadai MA, Cech J, Roth S, Curran SA (2006) Poly(l- lactide) (PLLA)/multiwalled carbon nanotube (MWCNT) composite: characterization and biocompatibility evaluation. J Phys Chem B 110:12910-2915 CrossRef
  23. Zhao YY, Qiu ZB, Yang WT (2009) Effect of multi-walled carbon nanotubes on the crystallization and hydrolytic degradation of biodegradable poly(l- lactide). Compos Sci Technol 69:627-32 CrossRef
  24. Angela M, Harris Lee EC (2008) Improving mechanical performance of injection molded PLA by controlling crystallinity. J Appl Polym Sci 107:2246-255 CrossRef
  25. Tachibana Y, Maeda T, Ito O, Maeda Y, Kunioka M (2010) Biobased myo-inositol as nucleator and stabilizer for poly(lactic acid). Polym Degrad Stab 95:1321-329 CrossRef
  26. Nakajima H, Takahashi M, Kimura Y (2010) Induced crystallization of PLLA in the presence of 1,3,5-benzenetricarboxylamide derivatives as nucleators: preparation of haze-free crystalline PLLA materials. Macromol Mater Eng 295:460-68
  27. Naoshi K, Atsushi S, Takahiro H, Tsuyoshi U, Etsuo T (2007) Physical and mechanical properties of poly(l- lactic acid) nucleated by dibenzoylhydrazide compound. J Appl Polym Sci 103:244-50 CrossRef
  28. Gopakumar TG, Lee JA, Kontopoulou M, Parent JS (2002) Influence of clay exfoliation on the physical properties of montmorillonite/polyethylene composites. Polymer 43:5483-491 CrossRef
  29. Chen B, Li XL, Xu SQ, Tang T, Zhou BL, Huang BT (2002) Compatibilization effects of block copolymers in high density polyethylene/syndiotactic polystyrene blends. Polymer 43:953-61 CrossRef
  30. Lv ZQ, Wang KJ, Qiao ZH, Wang WJ (2010) The influence of modified zeolites as nucleating agents on crystallization behavior and mechanical properties of polypropylene. Mater Des 31:3804-809 CrossRef
  31. Avrami M (1940) Kinetics of phase change. II. Transformation-time relations for random distribution of nuclei. J Chem Phys 8:212-24 CrossRef
  32. Dobreva A, Gutzow I (1993) Activity of substrates in the catalyzed nucleation of glass forming melts. J Non Cryst Solids 162:1-2 CrossRef
  
• 作者单位：Yanhua Cai (1) (2)
  Shifeng Yan (2)
  Yinqing Fan (2)
  Zhuyi Yu (2)
  Xuesi Chen (3)
  Jingbo Yin (2)
  
  1. School of Materials and Chemical Engineering, Chongqing University of Arts and Sciences, Chongqing, 402160, People’s Republic of China
  2. Department of Polymer Materials, Shanghai University, Shanghai, 201800, People’s Republic of China
  3. Key Laboratory of Polymer Ecomaterials, Changchun Institute of Applied Chemistry, Chinese Academy of Sciences, Changchun, 130022, People’s Republic of China
  
• ISSN：1735-5265

文摘

Five N,N-bis(benzoyl) alkyl diacid dihydrazides were synthesized from benzoyl hydrazine and alkyl diacyl dichloride which were derived from alkyl diacid via acylation. PLLA/N,N-bis(benzoyl) alkyl diacid dihydrazide samples were prepared by melt blending and hot-press forming process. The nucleation effect of N,N-bis(benzoyl) alkyl diacid dihydrazide on crystallization of biodegradable poly(l-lactic acid) (PLLA) was investigated using differential scanning calorimetry (DSC) and vicat softening analysis. The results showed that five N,N-bis(benzoyl) alkyl diacid dihydrazides acted as powerful nucleating agent for PLLA; with incorporation of N,N-bis(benzoyl) alkyl diacid dihydrazide, the crystallization peak became sharper and shifted to higher temperature as the degree of supercooling decreased at a cooling rate of 1?°C/min from melt. The nucleation activities of five N,N-bis(benzoyl) alkyl diacid dihydrazides were quantitatively determined. It is shown that N,N-bis(benzoyl) suberic acid dihydrazide has higher nucleating activity than the other N,N-bis(benzoyl) alkyl diacid dihydrazides. In the presence of N,N-bis(benzoyl) alkyl diacid dihydrazide, the melting behavior of PLLA is affected significantly. In addition, the thermal stability of PLLA/0.8?% N,N-bis(benzoyl) alkyl diacid dihydrazide is tested and reported. Compared to the neat PLLA, the onset degradation temperature of PLLA/0.8?% N,N-bis(benzoyl) alkyl diacid dihydrazide samples has been decreased significantly.