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细菌纤维素增强改性聚碳酸亚丙酯复合材料的制备及性能 被引量:5

Preparation and Properties of Polypropylene Carbonate Composite Reinforced by Bacterial Cellulose
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摘要 将细菌纤维素(BC)作为增强材料加入聚碳酸亚丙酯(PPC)基体中,采用溶液浇铸法制备了PPC/BC复合薄膜材料,研究了BC用量对PPC拉伸性能、热稳定性能及降解性能的影响。结果表明:随着BC用量的增加,PPC/BC复合薄膜的拉伸强度和热稳定性能明显提高,降解速率减慢。 Taking bacterial cellulose (BC) as reinforcement and polypropylene carbonate (PPC) as matrix, PPC/BC composite film was prepared by solvent casting. The effect of BC content on tensile property, thermal stability and degradability of PPC was studied. The results show that with the increase of BC content, the tensile strength and thermal stability of PPC/BC composite film are improved obviously, but the degradation rate is reduced.
作者 徐广 徐鼐 庞素娟 潘莉莎 林强 刘慧宏 于长江 李琪 傅送保
机构地区 海南大学材料与化工学院 中海油化学股份有限公司
出处 《塑料科技》 CAS 北大核心 2010年第4期44-46,共3页 Plastics Science and Technology
基金 海南省重点科技项目(090502) 科技人员服务企业行动项目(2009GJE20014) 海南省教育厅高校科研项目(Hj2008-06) 海南省重点学科建设项目(xkxm0822-12)
关键词 聚碳酸亚丙酯 细菌纤维素 拉伸性能 热稳定性 降解性能 Polypropylene carbonate Bacterial cellulose Tensile property Thermal stability Degradability
分类号 TB332 [一般工业技术—材料科学与工程]
  • 相关文献

参考文献11

  • 1Low I M, McGrathm M, Lawrence D, et al. Mechanical and fracture of cellulose-fibre-reinforced epoxy laminates [J]. Compos A, 2007, 38(3): 963-974.
  • 2高建平,向辉.二氧化碳和环氧化合物合成生物降解塑料[J].天然气化工—C1化学与化工,2004,29(2):55-57. 被引量:19
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  • 7Bodin A, Backdahl H, Fink H, et al. Influence of cultivation condition on mechanical and morphological properties of bacterial cellulose tubes [J]. Biotechnol Bioeng, 2007, 97(2): 425-434.
  • 8万怡灶,张艳森,何芳,等细菌纤维素与聚甲基丙烯酸β羟乙酯透明复合材料与制备:中国,101274107[P]2008-10-01.
  • 9赵梓年,王红.聚乳酸/细菌纤维素复合材料制备研究[J].塑料工业,2008,36(12):11-13. 被引量:13
  • 10黄远,万怡灶,扈立,何芳,王玉林.天然细菌纤维素增强不饱和聚酯树脂复合材料的制备及性能[J].复合材料学报,2008,25(6):140-145. 被引量:8

二级参考文献17

  • 1Low I M, McGrathm M, Lawrence D, et al. Mechanical and fracture of cellulose fibre - reinforced epoxy laminates [J].Compos A, 2007, 38(3):963-974.
  • 2Owen M A, Elisabeth C, Athene M D, et al. Tensile deformation of bacterial cellulose composites [J]. Int J Biol Micromol, 2003, 32:28-35.
  • 3Yamanaka S, Ishihala M, Sugiyama J. Surface modification of bacterial cellulose [J]. Cellul, 2000, 7: 213-225.
  • 4Bodin A, Backdahl H, Fink H, et al. Influence of cultivation condition on mechanical and morphological properties of bacterial cellulose tubes [J]. Biotechnol Bioeng, 2007, 97 (2) : 425-434.
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  • 7Baiardo M, Frisoni G, Scandola M, et al. Surface chemical modification of natural cellulose fibres [J].J Appl Polym Sci, 2002, 83(1): 38-45.
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  • 9Girones J, Mendez J A, Boufi S, et al. Effects of silane coupling agent on the properties of pine fibres/polypropylene composites [J]. J Appl Polym Sci, 2007, 103 (6): 3706- 3717.
  • 10Seifert M, Hesse S, Kabrelian V, et al. Controlling the water content of never dried and reswollen bacterial cellulose by the addition of water soluble polymers to the culture medium [J]. J Polym Sci, 2004, 3(42): 463-470.

共引文献49

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引证文献5

二级引证文献27

塑料科技
2010年 第4期

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