人工关节在服役过程中的磨损主要发生在超高分子量聚乙烯(UHMWPE)关节臼的表面.UHMWPE的磨擦磨损性能受多因素影响,其中与UHMWPE对磨的硬质材料(对偶件)表面粗糙度是关键因素之一.综述了近年来在对偶件表面粗糙度对UHMWPE摩擦磨损性能影响方面的研究工作,结合UHMWPE的磨损机制,重点阐述对偶件表面粗糙度对UHMWPE磨损率、UHMWPE磨屑尺寸和人工关节润滑机制的影响.
参考文献
[1] | Hong L;Bing S;Aaron F et al.[J].Vacuum,2004,73:317-326. |
[2] | John D J;Brian B;Martine L B .[J].Wear,2008,264:245-256. |
[3] | Bowsher JG.;Shelton JC. .Hip simulator study of the influence of patient activity level on the wear of crosslinked polyethylene under smooth and roughened femoral conditions[J].Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear,2001(1):167-179. |
[4] | Hall R M;Siney P;Unsworth A et al.[J].Medical Engineering and Physics,1997,19(08):711-719. |
[5] | 刘家浚.材料磨损原理及其耐磨性[M].北京:清华大学出版社,1993 |
[6] | 王乙潜;黄立萍;郦剑 .[J].材料科学与工程,1998,16(04):29-32. |
[7] | 王娜 .γ射线辐照UHMWPE的结构和摩擦磨损性能研究[D].南京:南京理工大学,2005. |
[8] | 高展 .改性Ti6Al4V合金/UHMWPE生物摩擦学特性研究[D].南京理工大学,2006. |
[9] | Wang A;Essner A;Polineni V K et al.[J].Tribology International,1998,31:17-33. |
[10] | Wilches L V;Uribe J A;Toro A .[J].Wear,2008,265:143-149. |
[11] | Buford A;Goswami T .[J].Materials & Design,2004,25:385-393. |
[12] | Cooper J R;Dowson D;Fisher J .[J].Wear,1993,162-164:378-384. |
[13] | Choa H J;Wei W J;Kao H C et al.[J].Materials Chemistry and Physics,2004,88:9-16. |
[14] | Wang A;Polineni VK;Stark C;Dumbleton JH .Effect of femoral head surface roughness on the wear of ultrahigh molecular weight polyethylene acetabular cups.[J].The Journal of arthroplasty,1998(6):615-620. |
[15] | 黄传辉,马睿,葛世荣.滑动模式对超高分子量聚乙烯摩擦磨损行为的影响[J].摩擦学学报,2005(04):348-352. |
[16] | Turell M E;Friedlaender G E;Wang A et al.[J].Wear,2005,259:984-991. |
[17] | 郭治天,熊党生,葛世荣.不锈钢表面粗糙度对超高分子量聚乙烯摩擦磨损性能的影响[J].理化检验-物理分册,2001(09):369-372. |
[18] | Barrett T S;Stachoniak G W;Batchelor A W .[J].Wear,1992,153:331-350. |
[19] | Dowson D .[J].Wear,1995,190:171-183. |
[20] | 黄传辉 .人工髋关节的磨损行为及磨粒形态研究[D].徐州:中国矿业大学(徐州),2002. |
[21] | Wang A.;Essner A. .Three-body wear of UHMWPE acetabular cups by PMMA particles against CoCr, alumina and zirconia heads in a hip joint simulator[J].Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear,2001(1):212-216. |
[22] | 狄鸥.人工全髋关节置换术远期松动的相关因素及预防[J].华北国防医药,2008(02):1-4. |
[23] | 周健松,阎逢元,单小东.超高分子量聚乙烯摩擦学性能研究进展[J].材料科学与工程学报,2005(01):142-145. |
[24] | 刘洪涛 .人工关节磨屑表征及磨屑生物反应[D].北京:中国矿业大学(北京),2008. |
[25] | 丁悦,Bertram Barden,刘尚礼,黄东生,Franz l(o)er.聚乙烯磨损颗粒的大小对人工关节松动的影响[J].中华实验外科杂志,2004(03):353-354. |
[26] | Matthews J.B.;Besong A.A. .Evaluation of the Response of Primary Human Peripheral Blood Mononuclear Phagocytes to Challenge with In Vitro Generated Clinically Relevant UHMWPE Particles of Known Size and Dose[J].Journal of biomedical materials research, Part B. Applied biomaterials,2000(2):296-307. |
[27] | 江红卫,沈铁城,孙俊英.人工关节材料聚乙烯磨屑诱发骨溶解的机制[J].中华创伤杂志,2002(08):470-472. |
[28] | Hailey J L;Ingham E;Stione M et al.[J].Part H:Journal of Engineering in Medicine,1996,210(01):3-10. |
[29] | Ingram JH.;Stone M.;Fisher J.;Ingham E. .The influence of molecular weight, crosslinking and counterface roughness on TNF-alpha production by macrophages in response to ultra high molecular weight polyethylene particles[J].Biomaterials,2004(17):3511-3522. |
[30] | Elfick A;Smith S L;Green S M et al.[J].Wear,2001,249:517-527. |
[31] | 笹田直;塚本行男;馬渕清資.生物摩擦学:关节的摩擦和润滑[M].北京:冶金工业出版社,2007:8-14. |
[32] | 王野平,王成焘.天然关节及人工关节的润滑机理探讨[J].生物医学工程学杂志,2001(04):603-607. |
[33] | 潘育松,熊党生.人工关节润滑系统研究进展[J].润滑与密封,2006(06):168-171,182. |
[34] | Flannery M;Jones E;Birkinshaw C .[J].Wear,2008,265:1009-1016. |
[35] | Dowson D .[J].Proceedings of the Institution of Mechanical Engineers,2001,215:335-358. |
[36] | 王野平;邱部贵;沈继飞 .[J].上海铁道学院海报,1993,14(04):65-72. |
[37] | Santavirta S;Konttinen Y T;Lappalainen R et al.[J].Current Orthopaedics,1998,12:51-57. |
[38] | 张亚平,高家诚,王勇.人工关节材料的研究与展望[J].世界科技研究与发展,2000(01):47-51. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%