Wear of UHMWPE Pins against Ti-alloy and Stainless Steel Disks Moving in Two Kinematic Motions

두가지 기구운동을 하는 타이타늄 합금과 스테인레스 스틸 디스크에 대한 초고분자량 폴리에틸렌 핀의 마멸

  • 이권용 (대구대학교 자동차·산업·기계공학부) ;
  • 김석영 (영남대학교 금속 및 재료공학부) ;
  • 김신윤 (경북대학교 정형외과학교실)
  • Published : 2000.11.01

Abstract

The wear behaviors of ultrahigh molecular weight polyethylene pins against titanium alloy and stainless steel disks moving in two different kinematic motion were investigated by conducting repeat pass rotational sliding and linear reciprocal sliding wear tests. Linear reciprocal motion wore more the polyethylene pin than did repeat pass rotational motion for both disk materials. It means that the repeated directional change of contact stresses generates more wear debris in polyethylene. For the linear reciprocal sliding tests, titanium alloy disks were damaged with some scratches after one million cycles but no surface damage was observed on the polyethylene pins. On the other hand, for the repeat pass rotational sliding tests, all titanium alloy disks were severely abraded on the entire region of sliding track. This phenomenon can be interpreted by that stress fatigue under repeated sliding contact initiated titanium oxide layer wear particles from disk surface, and these hard particles were embedded into polyethylene pin and then they severely abraded the disk surface. From these results it can be concluded that the kinematic motion in pin-on-disk wear tests play a crucial role on the wear behaviors of UHMWPE pins against titanium alloy and stainless steel disks.

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