橡胶技术网

弹性体
CHINA ELASTOMERICS
2010 Vol.20 No.6 P.8-12

 橡胶技术网

改性剂对n-HA/NRL复合医用乳胶膜结构与性能的影响

王小红  霍凯  赵同建  曹阳  符新  王江 

摘 要:将经不同改性利改性后的纳米羟基磷灰石(n-HA)与天然胶乳(NRL)复合,制备n-HA/NRL复合医用乳胶膜.采用IR、TEM和SEM进行表征,结果表明,n-HA的粒径在20~60nm之间,长径比在2.5~3.5之间,复合乳胶膜表面结构形态明显改善.n-HA和NRL两相间界面作用增强,复合乳胶膜表观交联密度及综合力学性能明显提高.
关键词:纳米羟基磷灰石;天然胶乳;复合乳胶膜;生物相容性
分类号:TQ331.2  文献标识码:A
文章编号:1005-3174(2010)06-0008-05

Effect of modifier on the structure and properties of n-HA/NRL composite membrane

WANG Xiao-hong  HUO Kai  ZHAO Tong-jian  CAO Yang  FU Xin  WANG Jiang 

基金项目:中央公益院所基本业务费专项(XJSYW-FZX2009-19);海南大学重点项目(hd09xm22);海南大学创新团队项目(hd09xm03);海南省自然科学基金项目(50887)
作者简介:王小红(1979-),女,四川成都人,讲师,硕士,主要从事生物医用材料方面的研究工作.
作者单位:王小红(中国热带农业科学院橡胶研究所,海南,儋州,573717;海南大学材料与化工学院,海南优势资源化工材料应用技术教育部重点实验室,海南,海口,570228) 
     霍凯(海南大学,材料与化工学院,海南优势资源化工材料应用技术教育部重点实验室,海南,海口,570228) 
     赵同建(海南大学,材料与化工学院,海南优势资源化工材料应用技术教育部重点实验室,海南,海口,570228) 
     曹阳(海南大学,材料与化工学院,海南优势资源化工材料应用技术教育部重点实验室,海南,海口,570228) 
     符新(海南大学,材料与化工学院,海南优势资源化工材料应用技术教育部重点实验室,海南,海口,570228) 
     王江(中国热带农业科学院橡胶研究所,海南,儋州,573717;海南大学,材料与化工学院,海南优势资源化工材料应用技术教育部重点实验室,海南,海口,570228) 

参考文献:

[1]李普旺.低蛋白天然胶乳的性能与应用[J].中国橡胶,2003,19(12):32.
[2]张承焱.医用高分子材料的应用研究及发展(二)[J].中国医疗器械信息,2005,(11):18~23.
[3]Frank W Perrella,Anthony A Gaspari.Natural rubber latex protein reduction with an emphasis on enzyme treatment[J].Methods,2002,27(1):77~86.
[4]Jean Bousquet,Antoine Flahault,Olivier Vandenplas.Natural rubber latex allergy among health care workers:A systematic review of the evidence[J].Journal of Allergy and Clinical Immunology,2006,118(2)447~454.
[5]Tassawuth Pojanavaraphan,Rathanawan Magaraphan.Prevulcanized natural rubber latex/clay aerogel nanocomposites[J].European Polymer Journal,2008,44(7):1968~1977.
[6]J Shey,S H Imam,G M Glenn,et al.Properties of baked starch foam with natural rubber latex[J].Industrial Crops and Products,2006,24(1):34~40.
[7]K Siti Maznah,A Baharin,I Hanafi.Effect of acid treatment on extractable protein content,crosslink density and tensile properties of natural rubber latex films[J].Polymer Testing,2008,27(7):823~826.
[8]Waranya Anancharungsuk,Duangporn Polpanich,Kulachart Jangpatarapongsa.In vitro cytotoxicity evaluation of natural rubber latex film surface coated with PMMA nanoparticles[J].Colloids and Surfaces B:Biointerfaces,2010,78(2):328~333.
[9]Sirinapa Santipanusopon,Sa-Ad Riyajan.Effect of field natural rubber latex with different ammonia contents and storage period on physical properties of latex concentrate,stability of skim latex and dipped film[J].Physics Procedia,2009,2(1):127~134.
[10]H Morgan,R M Wilson,J C Elliott.Preparation and characterisation of monoclinic hydroxyapatite and its precipitated carbonate apatite intermediate[J].Biomaterials,2000,21(6):617~627.
[11]Li Wang,Chunzhong Li Preparation and physicochemical properties of a novel hydroxyapatite/chitosan-silk fibroin composite[J].Carbohydrate Polymers,2007,68(4):740~745.
[12]Jan Werner,Britta Linner-Kr cmar,Wolfgang Friess.Mechanical properties and in vitro cell compatibility of hydroxyapatite ceramics with graded pore structure[J].Biomaterials,2002,23(2):4285~4294,
[13]Yin Zhang,Yoshiyuki Yokogawa,Xia Feng.Preparation and properties of bimodal porous apatite ceramics through slip casting using different hydroxyapatite powders[J].Ceramics International,2010,36(1):107~113.
[14]G H Nancollas,R Tang,R J Phipps.Novel insights into actions of bisphosphonates on bone:Differences in interactions with hydroxyapatite[J].Bone,2006,38(5):617~627.
[15]M Okumura,H Ohgushi,S Tamai.Bonding osteogenesis in coralline hydroxyapatite combined with bone marrow cells[J].Biomaterials,1991,12(4):411~416.

收稿日期:2010年9月20日

出版日期:2010年12月28日