Centre for Rehabilitation, Exercise and Sport Science, Victoria University, Victoria, Australia.
Ergonomics. 2013;56(6):1038-48. doi: 10.1080/00140139.2013.787122. Epub 2013 Apr 22.
Slipping biomechanics was investigated on both non-contaminated and oil-contaminated surfaces during unconstrained straight-line walking ('walking'), turning, gait initiation and termination. In walking, backward slipping was more frequent, whereas forward slipping was more frequent when turning. Stopping and gait initiation engendered only forward and backward slipping, respectively. Based on slip distance and sliding velocity, severity of forward slipping was least in walking than for the other gait tasks, whereas the tasks had similar effects on backward slipping. Relative to the dry surface, heel and foot contact angles reduced and heel contact (HC) velocity increased for all gait tasks on the contaminated surface. Ground reaction forces were generally lower on the contaminated surface, suggesting kinetic adaptation immediately following HC. Required coefficient of friction (RCoF) did not correlate with slip distance suggesting that RCoF may not be a useful kinetic parameter for assessing slipping risk on contaminated surfaces.
Slipping is hazardous in everyday locomotion and occupational settings. This study investigated foot control kinematics and kinetics across various gait tasks on both a non-contaminated and an oil-contaminated walking surface. Turning, gait termination and gait initiation were associated with a greater risk of slip-related falls than unconstrained walking.
在非污染和污染表面不受约束的直线行走(行走)、转弯、起始和停止步态期间,研究了滑动力学。在行走时,向后滑动更频繁,而在转弯时,向前滑动更频繁。停止和起始步态仅分别产生向前和向后滑动。基于滑动距离和滑动速度,向前滑动的严重程度在行走时比其他步态任务都要低,而这些任务对向后滑动的影响相似。与干燥表面相比,所有步态任务在污染表面上的脚跟和脚接触角减小,脚跟接触(HC)速度增加。污染表面上的地面反作用力通常较低,表明在 HC 后立即进行了动力学适应。所需摩擦系数(RCoF)与滑动距离无关,这表明 RCoF 可能不是评估污染表面滑倒风险的有用动力学参数。
滑倒在日常活动和职业环境中是很危险的。本研究在非污染和污染的步行表面上进行了各种步态任务,研究了脚部控制运动学和动力学。与无约束行走相比,转弯、步态终止和步态起始与更高的滑倒相关跌倒风险相关。
