The tribological behaviour of two material pairs was explored for the application of metal-metal cervical disc replacement. Efforts are being made to find a material pair that minimizes wear while at the same time permitting acceptable postoperative imaging. The current study investigated wear and friction of stainless steel (used in an earlier design cervical disc implant) and a titanium-based metal matrix composite. Pin-on-plate wear tests were performed with both linear-tracking and crossing-path reciprocating motions. The metal matrix composite had a superior wear performance compared to stainless steel for both types of motion. When tested with crossing-path motion, the total wear of metal matrix composite showed a decrease compared with linear-tracking motion while total wear was not affected for the stainless steel. Friction tests were performed on stainless steel, metal matrix composite and, for comparison purposes, a high carbon cobalt-based alloy. Both the metal matrix c omposite a nd stainless st eel h ad c oefficients of friction that were higher than the cobalt-based alloy.
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机译:探索了两种材料对的摩擦学行为,用于应用金属 - 金属宫颈椎间盘置换。正在努力寻找一种最小化磨损的材料对,同时允许可接受的术后成像。目前的研究调查了不锈钢磨损和摩擦(在较早的设计宫颈椎间盘植入物中使用)和钛基金属基质复合材料。用线性跟踪和交叉路径往复运动进行引脚板磨损试验。与两种运动的不锈钢相比,金属基质复合材料具有优异的磨损性能。当与交叉路径运动测试,金属基质复合体的总磨损显示出与同时总磨损并没有受到影响为不锈钢线性跟踪运动相比的降低。对不锈钢,金属基质复合材料进行摩擦试验,用于比较目的,是一种高碳钴基合金。金属基质C复合A ND不锈钢SEL H Ad C的摩擦力高于钴基合金。
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