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Friction, wear, transfer and wear surface morphology of ultra-high-molecular-weight polyethylene

机译：超高分子量聚乙烯的摩擦，磨损，传递和磨损表面形态

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Tribological studies at 25 C in a 50-percent-relative-humidity air atmosphere were conducted using hemispherically tipped 440 C HT (high temperature) stainless steel pins sliding against ultra-high-molecular-weight polyethylene (UHMWPE) disks. The results indicate that sliding speed, sliding distance, contact stress and specimen geometry can markedly affect friction, UHMWPE wear, UHMWPE transfer and the type of wear mechanisms that occur. Adhesion appears to be the predominant wear mechanism; but after long sliding distances at slow speeds, heavy ridges of transfer result which can induce fatigue-like wear on the UHMWPE disk wear track. In one instance, abrasive wear to the metallic pin was observed. This was caused by a hard particle embedded in the UHMWPE disk wear track.

机译：使用半球形的440 C HT（高温）不锈钢销钉在超高分子量聚乙烯（UHMWPE）盘上滑动，在25％的相对湿度50％的大气中进行了摩擦学研究。结果表明，滑动速度，滑动距离，接触应力和试样几何形状可以显着影响摩擦，UHMWPE磨损，UHMWPE传递以及发生的磨损机制的类型。粘附力似乎是主要的磨损机理。但是在低速下长距离滑动之后，会形成沉重的传递脊，这会在UHMWPE磁盘磨损轨道上引起类似疲劳的磨损。在一种情况下，观察到金属销的磨损。这是由于嵌入UHMWPE磁盘磨损轨道中的硬颗粒引起的。

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Fusaro, R. L.;
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年度 1983
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6. Wear Morphology on the Surfaces of CoCrMo Unicompartmental Knee Joint Endoprostheses as Elements of Metal–Metal Friction Nodes [O] . Arkadiusz Szarek, Grzegorz Stradomski, Justyna Łukomska-Szarek, 2020

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机译：惰性气氛中γ射线灭菌对髌骨替代物中超高分子量聚乙烯磨损后的不对称和老化的影响
8. Friction, Wear, Transfer and Wear Surface Morphology of Ultra-High-Molecular-Weight Polyethylene [R] . Fusaro, R. L. 1983

机译：超高分子量聚乙烯的摩擦，磨损，转移和磨损表面形态

Friction, wear, transfer and wear surface morphology of ultra-high-molecular-weight polyethylene

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