COLD-EXTRUSION DEFORMATION OF UHMWPE IN TOTAL KNEE REPLACEMENT PROSTHESES

被引：18

作者：

CHANG, DCM ^{[1
]}

GOH, JCH ^{[1
]}

TEOH, SH ^{[1
]}

BOSE, K ^{[1
]}

机构：

[1] NATL UNIV SINGAPORE HOSP, DEPT MECH & PROD ENGN, SINGAPORE 0511, SINGAPORE

来源：

BIOMATERIALS | 1995年 / 16卷 / 03期

关键词：

FEM ANALYSIS; COLD EXTRUSION; ULTRA-HIGH MOLECULAR WEIGHT POLYETHYLENE; TOTAL KNEE REPLACEMENT PROSTHESES;

D O I：

10.1016/0142-9612(95)92120-U

中图分类号：

R318 [生物医学工程];

学科分类号：

0831 ;

摘要：

The use of metal-backed tibial plates in total knee replacement prostheses can result in the flow of ultra-high molecular weight polyethylene (UHMWPE) from the tibial insert into a cavity on the metal tray surface. A study of the relationship between the thickness of UHMWPE inserts and the amount of cold extrusion is reported here. An attempt was made to correlate the occurrence of cold extrusion with computer-aided analysis. UHMWPE samples of varying thickness, from 3 mm to 10mm, were placed over cobalt-chrome (Co-Cr) discs. The Co-Gr discs had a 5 mm diameter hole placed central ly to simulate a tibial tray cavity. A cyclic load was applied at 20 Hz through a Co-Cr spherical indentor for a million cycles. The application of cyclic loading on UHMWPE samples resulted in cold-extrusion values comparable to those reported for retrieval analysis studies. Results after fatigue loading show that the samples do not suffer any gross surface damage. A shiny depression was visible at the load application site and the surface roughness value was decreased. The amount of cold extrusion increased with decreasing UHMWPE sample thickness. From the results, a minimum UHMWPE thickness of 12 mm is required if cold extrusion of UHMWPE is to be eliminated.

引用

页码：219 / 223

页数：5

共 50 条

[1] NONCONVENTIONAL COLD-EXTRUSION
PLANCAK, M
BRAMLEY, A
OSMAN, F
JOURNAL OF MATERIALS PROCESSING TECHNOLOGY, 1992, 34 (1-4) : 465 - 472
[2] TOTAL KNEE REPLACEMENT WITH HINGED PROSTHESES
THOMAS, WH
ORTHOPEDIC CLINICS OF NORTH AMERICA, 1975, 6 (03) : 823 - 829
[3] CROPPING BILLETS FOR COLD-EXTRUSION
LAWSON, R
METALLURGIA AND METAL FORMING, 1976, 43 (02): : 40 - 47
[4] POSSIBILITIES OF WARM EXTRUSION IN COMBINATION WITH COLD-EXTRUSION
KORNER, E
KNODLER, R
JOURNAL OF MATERIALS PROCESSING TECHNOLOGY, 1992, 35 (3-4) : 451 - 465
[5] COLD-EXTRUSION OF ASTARTET SLEEVE
ILCZYSZYN, M
LUKASIEWICZ, R
MECHANIK MIESIECZNIK NAUKOWO-TECHNICZNY, 1981, 54 (07): : 352 - 353
[6] COEFFICIENT OF FRICTION IN COLD-EXTRUSION
WAGENER, HW
WOLF, J
JOURNAL OF MATERIALS PROCESSING TECHNOLOGY, 1994, 44 (3-4) : 283 - 291
[7] COLD-EXTRUSION OF BEARING RINGS
GLASEK, W
HERMAN, S
KMIEC, H
MECHANIK MIESIECZNIK NAUKOWO-TECHNICZNY, 1979, 52 (12): : 673 - 675
[8] SEIZURE MECHANISM IN COLD-EXTRUSION AND FORGING
KAWAI, N
SAIKI, H
NAKAMURA, T
JOURNAL OF ENGINEERING MATERIALS AND TECHNOLOGY-TRANSACTIONS OF THE ASME, 1984, 106 (03): : 257 - 263
[9] Study on implantation of total knee replacement prostheses
Cortes-Aburto, Obed
Hernandez-Perez, Jose-Alfredo
Rojas-Rodriguez, Rafael
Arroyo-Diaz, Salvador-Antonio
Aceves-Perez, Rita-Marina
Canchola-Chavez, Marco-Antonio
DYNA, 2017, 92 (05): : 522 - 524
[10] COLD-EXTRUSION - GROWING IN CAPABILITIES AND MARKETS
不详
METAL STAMPING, 1976, 10 (12): : 27 - 28

← 1 2 3 4 5 →