天然蛋白纤维粉体性能与应用进展
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摘要
天然蛋白质纤维性能优良,具有易染色、回潮率高、吸湿、透气以及与人体肌肤有良好的亲和性等特点,但其应用领域目前主要以纺织服装为主,因此,针对不同蛋白质纤维的性能特点并拓展其应用领域具有极大的研究和应用价值。材料在纳米化或超细粉体化后,具有较高的比表面积和化学活性,是材料领域研究的热点之一。本文将着重介绍天然蛋白质纤维粉体的制备、优良性能及其在再生纤维材料、膜材料、吸附以及生物医学领域等方面的应用研究进展。
Natural protein fiber has been widely used in the textile area due to its excellent dyeing property,high moisture regain,air permeability,and good compatibility with human skin.However,it is very important to find some new applications for those versatile natural fibers according to their special properties.These years,some materials are developed into small size such as Nanometer or micrometer particle,their specific surface area and chemical activity are greatly increased.In this paper,the study of the natural protein fiber powder will be reported including the study on the performance of the natural protein fiber powder,and its application in new fiber developing,new membrane developing,and biomaterials developing,etc.
Natural protein fiber has been widely used in the textile area due to its excellent dyeing property,high moisture regain,air permeability,and good compatibility with human skin.However,it is very important to find some new applications for those versatile natural fibers according to their special properties.These years,some materials are developed into small size such as Nanometer or micrometer particle,their specific surface area and chemical activity are greatly increased.In this paper,the study of the natural protein fiber powder will be reported including the study on the performance of the natural protein fiber powder,and its application in new fiber developing,new membrane developing,and biomaterials developing,etc.
引文
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[53]Liu X Y,Zhang C C,Xu W L,et al.Mater Lett,2009,63(2):263~265.
[2]Xu W L,Cui W G,Li W B,et al.Powder.Technol,2004,140(1-2):136~140.
[3]Li Y,Xu W L.USP,7000858-B2.2004.
[4]Yoshimizu H,Asakura T J,et al.Appl Polym Sci,1990,40(12):127~134.
[5]Tajima M,tanaka T.USP,06306772.1994.
[6]Yamada H,Nakao H,Takasu Y,et al.Mater Sci Eng,C-bio Syst,2001,14(1-2):41~46.
[7]Altman G H,Horan R L,Lu H H,et al.Biomaterials,2002,23(20):4131~4141.
[8]Altman G H,Diaz F,Jakuba C,et al.Biomaterials,2003,24(3):401~416.
[9]Ha S W,Tonelli A E,Hudson S M,et al.Biomacromolecules,2005,6(3):1722~1731.
[10]Vepari C,Kaplan D L,et al.Prog Polym Sci,2007,32:991~1007.
[11]Xu W L,Fang J,Cui W G,et al.Polym Eng Sci,2006,46(5):617~622.
[12]Xu W L,Wang X,Cui W G,et al.Appl Polym Sci,2009,111(5):2204~2209.
[13]徐卫林,郭维琪,李文斌.中国发明专利,ZL02154128.0.2002.
[14]Xu W L,Ke G Z,Wu J H,Wang X G,et al.Eur Polym,2006,42(9):2168~2173.
[15]柯贵珍,王善元,徐卫林.高分子学报,2004(1):103~106.
[16]Xu W L,Ke G Z,Peng X Q,et al.Appl Polym Sci,101(5):2967~2971.
[17]Tao Y Z,Yan Y,Xu W L,et al.Polym Sci Part B:Polym.Phys,2010,48(09):940~950.
[18]Yang H J,Xu H Y,Zhu G C,et al.Proc Mech Eng,2011,225(4):421~433.
[19]Wang X,Xu W L,Ke G Z,et al.Fiber Polym,2006,7(3):250~254.
[20]Huang J,Liu X,Li W,et al.Thermoplast Compos,2011,25(1):75~88.
[21]Liu H,Xu W,Liu X,et al.Appl Polym Sci,2009,114(6):3428~3433.
[22]Liu H T,Xu W L,Zou H T,et al.Mater Lett,2008,62(12-13):1949~1952.
[23]Wang X,Xu W L,Li W B,et al.Fibres.Text East Eur,2009,17(2):82~86.
[24]钟安华,崔卫刚,徐卫林.纺织学报,2007,28(1):18~21.
[25]Fang H Y,Chen J P,Leu Y L,et al.Chem Pharm Bull,2006,54(2):156~162.
[26]邓春雨,黄开勋,徐卫林.产业用纺织品,2006(8):15~17.
[27]邓春雨,黄开勋,徐卫林.纺织学报,2006(4):83~86.
[28]邓春雨,黄开勋,徐卫林.印染助剂,2006(2):28~30.
[29]胡玉琴,钟安华.武汉科技学院学报,2009(5):10~12.
[30]陶咏真,鄢芸,徐卫林.高分子学报,2010(1):27~32.
[31]Wang X,Xu W L,Wang X G,et al.Appl Polym Sci,2008,108(5):2852~2856.
[32]Xu W L,Wang X,Li W B,et al.Macromol Mater Eng,2007,292(5):674~680.
[33]彭旭锵,徐卫林,刘欣.高分子材料科学与工程,2007(04):195~198.
[34]刘欣,徐卫林,王训该.西安工程大学学报,2009(2):340~346.
[35]Rajkhowa R,Naik R,Wang L,et al.Appl Polym Sci,2011,119(6):3630~3639.
[36]Naik R,Wen G,Ms D,et al.Appl Polym Sci,2010,115(3):1642~1650.
[37]Knetsch M L W,Koole L H,et al.Biomed Mater Res A,2010,93A(1):77~85.
[38]How T V,Guidoin R,Young S K,et al.Proc I Mech Eng H,1992,206(2):61~71.
[39]Lyman D J,Fazzio F J,Voorhees H,et al.Biomed Mater Res,1978,12(3):337~345.
[40]Tanzi M C,et al.Expert Review of Medical Devices,2005,2(4):473~492.
[41]Sonoda H,Takamizawa K,Nakayama Y,et al.Biomed Mater Res,2001,55(3):266~276.
[42]Sonoda H,Takamizawa K,Nakayama Y,et al.Biomed Mater Res A,2003,65A(2):170~181.
[43]Xu W L,Zhou F,Ouyang C X,et al.Biomed Mater Res A,2010,92A(1):1~8.
[44]Xu W L,Zhou F,Ouyang C X,et al.Fiber.Polym,2008,9(1):71~75.
[45]王维慈,金毕,欧阳晨曦.生物工程学报,2010,26(1):79~84.
[46]冯素娟,徐卫林,欧阳晨曦.中国组织工程研究与临床康复,2009,13(12):2241~2244.
[47]祝国成,徐卫林,鄢芸.天津工业大学学报,2009,03,14~18.
[48]Yang H J,Xu W L,Xu H Y,et al.Proceedings of the Fiber Society 2009Spring Conference,2009,952~953.
[49]欧阳晨曦,许海叶,王维慈.华中科技大学学报-医学版,2009,29(4):508~511.
[50]周飞,徐卫林,欧阳晨曦.医用生物力学,2008,23(4):270~274.
[51]祝国成,杨红军,徐卫林.医用生物力学,2009(3),216~222.
[52]徐卫林,许海叶,杨红军.武汉科技学院学报,2008,21(08):1~6.
[53]Liu X Y,Zhang C C,Xu W L,et al.Mater Lett,2009,63(2):263~265.