Tribological behavior of ultra-high molecular weight polyethylene in a hip joint simulator

Tribological behavior of ultra-high molecular weight polyethylene in a hip joint simulator

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摘要 In this paper effects of various injection molding parameters on tribological properties of ultra-high molecular weight polyethylene （UHMWPE） were investigated. The tribological properties like coefficient of friction and wear rate were obtained from the experimental results of hip simulator which was designed and fabricated in the laboratory. Bovine serum was used as a lubricant in this study. In addition, the hardness of the specimen was also investigated as well. The injection molding parameters that varied for this study are melt temperature, injection velocity and compaction time. The results show that contact loads and melt temperature were mostly influenced the tribological behavior of UHMWPE. A wear mechanism map was developed to study the dominant wear mechanism that influences the wear behavior of UHMWPE. SEM was employed to study the worn out morphologies of UHMWPE. The dominant wear mechanisms that are dominated through our study are ironing, scratching, ploughing, plastic deformation, and fatigue wear. In this paper effects of various injection molding parameters on tribological properties of ultra-high molecular weight polyethylene （UHMWPE） were investigated. The tribological properties like coefficient of friction and wear rate were obtained from the experimental results of hip simulator which was designed and fabricated in the laboratory. Bovine serum was used as a lubricant in this study. In addition, the hardness of the specimen was also investigated as well. The injection molding parameters that varied for this study are melt temperature, injection velocity and compaction time. The results show that contact loads and melt temperature were mostly influenced the tribological behavior of UHMWPE. A wear mechanism map was developed to study the dominant wear mechanism that influences the wear behavior of UHMWPE. SEM was employed to study the worn out morphologies of UHMWPE. The dominant wear mechanisms that are dominated through our study are ironing, scratching, ploughing, plastic deformation, and fatigue wear.

作者 N.MOHAMAD RAFFI D.KANAGARAJAN V.SRINIVASAN

机构地区 Department of Manufacturing Engineering

出处《Frontiers of Materials Science》 SCIE CSCD 2012年第4期358-365,共8页 材料学前沿（英文版）

关键词 UHMWPE injection molding parameter WEAR tribological property hipsimulator UHMWPE, injection molding parameter, wear, tribological property, hipsimulator

分类号 TQ325.12 [化学工程—合成树脂塑料工业] TB332 [一般工业技术—材料科学与工程]

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1BomBac 0, Brojan M, Fajfar P, et al. Review of materials in medical applications. Materials and Geoenvironment, 2007, 54: 471-499.
2Croop Brian, Lobo H. Mechanical and visco-elastic properties of UHMWPE for in-vivo applications. SPE European Conference on Medical Polymers, 2010.
3Rezaei M, Ebrahimi N G, Shirzad A. Study on mechanical properties of UHMWPEIPET composites using robust design. Iranian Polymer Journal, 2006, 15(1): 3-12.
4Fouad H, Mourad A H I, Barton 0 C. Effect of pre-heat treatment on the static and dynamic thermo-mechanical properties of ultrahigh molecular weight polyethylene. Polymer Testing, 2005, 24 (5): 549-556.
5Schwartz C J, Bahadur S, Mallapragada S K. Effect of crosslinking and Pt-Zr quasicrystal fillers on the mechanical properties and wear resistance of UHMWPE for use in artificial joints. Wear, 2007, 263(7-12): 1072-1080.
6Wang S, Ge S. The mechanical property and tribological behavior ofUHMWPE. Effect of molding pressure. Wear, 2007,263(7-12): 949-956.
7Kuo H-C, Jeng M-C. Effects of part geometry and injection molding conditions on the tensile properties of ultra-high molecular weight polyethylene polymer. Materials & Design, 2010,31(2): 884-893.
8Kuo H-C, Jeng M-C. The influence of injection molding on tribological characteristics of ultra-high molecular weight polyethylene under dry sliding. Wear, 2010, 268(5-6): 803-810.
9Ge S, Wang S, Huang X. Increasing the wear resistance of UHMWPE acetabular cups by adding natural biocompatible particles. Wear, 2009, 267(5-8): 770-776.
10Tretinnikov 0 N, Ogata S, Ikada Y. Surface cross-linking of polyethylene by electron beam irradiation in air. Polymer, 1998, 39(24): 6115-6120.

1Zeynep Parlar Shahrad Samankan Vedat Temiz.The Effect of Counter-face Roughness on the Tribological Behavior of Filled and Unfilled PTFE[J].Journal of Mechanics Engineering and Automation,2015,5(11):609-615. 被引量：3
2范五一,黄锐.注射成型工艺对炭黑HDPE复合材料性能的影响[J].电子工艺技术,1994,15(4):19-21.
3姜从典.人工髋关节塑料臼模具的设计[J].工程塑料应用,1996,24(2):45-47. 被引量：1
4董丽(翻译).生物医学植入体渐入佳境[J].现代材料动态,2016,0(3):5-6.
5韩霞,郑家星,郭英.复合纤维纺丝成形实验模拟器的开发[J].北京服装学院学报（自然科学版）,2005,25(1):40-42. 被引量：1
6M. Boujelbene,S. Dhouibi,M. Kharrat,M. Dammak.Analysis of the Biotribological Behavior for the Stainless Steel/Polyethylene Contact Using a Knee Prosthesis Simulator[J].Journal of Bionic Engineering,2012,9(1):59-65. 被引量：2
7Howard A.Kuhn.生物医学中的快速成型[J].工业设计,2010(1):34-34.
8黄东房.陶瓷材料人造髋关节的探索[J].科技资讯,2012,10(28):230-230.
9徐蓓.“米其林轮胎安全体验之旅”行至上海万达广场[J].汽车与配件,2008(28):15-15.
10聚氨酯/环氧树脂互穿聚合物网络复合材料的摩擦学性能研究[J].润滑油,2011,26(6):39-39.

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Tribological behavior of ultra-high molecular weight polyethylene in a hip joint simulator

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