Evaluation of workers' perceived sense of slip and effect of prior knowledge of slipperiness during task performance on slippery surfaces.

Forty healthy industrial workers (age: 41.0+/-14.9 years) were tested for postural stability for three simulated tasks: (1) standing upright; (2) rapid trunk movement; and (3) lateral reach during lifting. These tasks were performed on four levels of slippery surfaces under different environmental lighting with new or workers' own old shoes. Prior to postural stability tests, each subject was given the opportunity to assess the surface slipperiness that he or she would encounter in the subsequent postural stability tests. A perceived sense of slip (PSOS) scale was administrated immediately after each test to determine subjects' PSOS. Subjects' postural sway and instability during task performance was determined by using a strain gauge type force platform. Results from this study indicate that subjects who were cautious in assessing surface slipperiness had less postural instability during task performance. Subjects could perceive the likely slips due to the change in task (p=0.0001) and surface slipperiness (p=0.0001). The PSOS scale is reproducible, easy to use, and provides a simple way to evaluate potential slip hazards in the workplace. Results from this study should aid understanding of the factors critical to maintaining postural stability on slippery surfaces, and will help to develop guidelines for safety training and identify slip hazards in the workplace.

[1]  D. Chaffin,et al.  Floor/shoe slip resistance measurement. , 1992, American Industrial Hygiene Association journal.

[2]  P. Succop,et al.  Effect of workers' shoe wear on objective and subjective assessment of slipperiness. , 1996, American Industrial Hygiene Association journal.

[3]  A Bhattacharya,et al.  Functional implications of postural disequilibrium due to lead exposure. , 1993, Neurotoxicology.

[4]  James L. Smith,et al.  Subjective assessment of floor slipperiness , 1993 .

[5]  Amit Bhattacharya,et al.  Effects of environmental and task risk factors on workers' perceived sense of postural sway and instability , 1998 .

[6]  M Tisserand,et al.  Progress in the prevention of falls caused by slipping. , 1985, Ergonomics.

[7]  H H Cohen,et al.  Fall accident patterns: characterization of most frequent work surface-related injuries. , 1982, Professional safety.

[8]  Kihyo Jung,et al.  An international comparison of test methods for determining the slip resistance of shoes , 1990 .

[9]  Amit Bhattacharya,et al.  Postural stability assessment during task performance , 1998 .

[10]  Don B. Chaffin,et al.  Ergonomic analysis of slip-resistance measurement devices , 1985 .

[11]  Craig Jones,et al.  The incidence of underfoot accidents during 1985 in a working population of 10,000 Merseyside people , 1988 .

[12]  R E Schlegel,et al.  Coefficient of Friction and Subjective Assessment of Slippery Work Surfaces , 1992, Human factors.

[13]  R Grönqvist,et al.  An apparatus and a method for determining the slip resistance of shoes and floors by simulation of human foot motions. , 1989, Ergonomics.