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二异氰酸酯增容聚甲基乙撑碳酸酯/埃洛石纳米管共混复合材料 被引量:4

Preparation of Poly(Propylene Carbonate)/Halloysite Nanotube Composite with Diisocyanate as Compatilizer
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摘要 在聚甲基乙撑碳酸酯/埃洛石纳米管(PPC/HNT)共混体系中加入2,4-甲苯二异氰酸酯(TDI)作为增容剂,通过熔融共混的方法制备了一系列复合材料,并用万能试验机、热重分析仪(TG)及扫描电子显微镜(SEM)研究了复合材料的力学性能、热性能及微观形貌。结果表明,2,4-甲苯二异氰酸酯的加入使复合材料的拉伸强度得到明显提高;熔融指数下降;热稳定性能有一定程度的提高;从扫描电镜图可以看到,TDI的增容作用改善了HNT与PPC的界面接触,材料的相容性得到了改善。 A series of poly(propylene carbonate)/halloysite nanotube(PPC/HNT) composites were prepared by melt blending in the presence of 2,4-toluene diisocyanate(TDI) as a coupling agent.The mechanical property,thermal property and their morphology were investigated by tensile tester,thermogravimeter and scanning electron microscope.Tensile test results show that with the introduction of TDI,tensile strength of the composites increases while elongation at break decreases significantly.Thermogravimetric analysis(TGA)curves indicate that thermal stability improves slightly compared with the that of composite without TDI.Scanning electron microscope(SEM) images illustrate that the interfacial compatibility between PPC and HNT is improved by the addition of TDI.
作者 陈柳鹏 王拴紧 肖敏 孟跃中
机构地区 广东省低碳化学与过程节能重点实验室中山大学
出处 《高分子材料科学与工程》 EI CAS CSCD 北大核心 2011年第8期157-159,164,共4页 Polymer Materials Science & Engineering
基金 广东省节能减排重大专项(2008A080800024)
关键词 聚甲基乙撑碳酸酯 埃洛石纳米管 熔融共混 相容性 poly(propylene carbonate) halloysite nanotube melt blending interfacial compatibility
分类号 TB383 [一般工业技术—材料科学与工程]
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参考文献5

  • 1Wang S J, Du L C, Zhao X S, et al. Synthesis and characterization of alternating copolymer from carbon dioxide and propylene oxide[J ]. J. Appl. Polym. Sci., 2002, 85(11): 2327-2334.
  • 2Zhu Q, Meng Y Z, Tjong S C, et al. Thermally stable and high molecular weight poly(propylene carbonate)s from carbon dioxide and propylene oxide[J ]. Polym. Int., 2002, 51 (10) : 1079-1085.
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共引文献5

同被引文献26

  • 1于昊,李立,王鸿志,吴思,富露祥.完全生物降解材料聚丙撑碳酸酯/玉米淀粉共混物的研究[J].沈阳化工学院学报,2005,19(3):188-192. 被引量:16
  • 2Masahiko O. Chemical syntheses of biodegradable poly- mers[J]. Progress in Polymer Science, 2002 (27) : 87- 133.
  • 3Peng S W, An Y X, Cheng C, et al. Thermal degrada- tion kinetics of uncapped and end-capped poly(propylene carbonate) [J]. Polymer Degradation and Stability, 2003 (80) : 141-147.
  • 4Stankovich S, Piner R D, Chen X Q, et al. Stable aque- ous dispersions of graphitic nanoplatelets via the reduet- ion of exfoliated graphite oxide in the presence of poly (sodium 4-styrenesulfonate) [J]. Journal of Materials Chemistry, 2006(16): 155-158.
  • 5Ramanathan T, Abdala A A, Stankovich S. Functional- ized graphene sheets for polymer nanocomposites[J].Nature Nanotechnology, 2008(3): 327-331.
  • 6Hummers W, Richard E. Preparation of graphitic ox- ide[J]. Journal of the American Chemical Society, 1958(80) : 1339.
  • 7Paredes J I, Villar R S, Martinez A A, et al. Graphene oxide dispersions in organic solvents [J]. Langmuir, 2008, 24(19).- 10560-10564.
  • 8Li X H, Meng Y Z, Zhu Q, et al. Thermal decomposi- tion characteristics of poly(propylene carbonate) using TG/IR and Py-GC/MS techniques[J]. Polymer Degra- dation and Stability, 2003, 81(1) : 157-165.
  • 9Bian J, Wei XW, Gong S J, et al. Improving the ther- mal and mechanical properties of poly-(propylene car- bonate) by incorporating functionalized graphite oxide [J]. Journal of Applied Polymer Science, 2012, 123: 2743-2752.
  • 10Chen B Q, Evans J R. Poly(e-caprolactone)-clay nano- composites: structure and mechanical properties[J]. Macromolecules, 2006, 39: 747-754.

引证文献4

二级引证文献7

高分子材料科学与工程
2011年 第8期

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