Predicting slips and falls considering required and available friction

This study investigated the relationship among measurements of friction, the biomechanics of gait, and actual slip and fall events. The goal was to develop a method for estimating the probability of slips and falls based on measurements of available friction and required friction. Five subjects wearing safety harnesses walked down a ramp at various angles with either a tile or carpeted surface under dry, wet or soapy conditions. Ramp angles of 0 8 , 10 8 and 20 8 were used to vary the shear and normal foot force requirements. The dynamic coe cient of friction (DCOF) of shoe, ̄ oor surface and contaminant interfaces was measured. Required friction was assessed by examining the foot forces during walking trials when no slips occurred. Slips with recoveries and slips resulting in falls were recorded and categorized using a force plate and high-speed video camera. These data were then incorporated into a logistic regression to model the probability of a slip or fall event occurring based on the diŒerence between the COF required by the foot forces generated and the measured DCOF. The results showed that the number of slip and fall events increased as the diŒerence between the required COF and the measured DCOF increased. The logistic regression model ® t the data well, resulting in an estimate of the probability of a slip or fall event based on the diŒerence between the measured and required friction. This type of model could be used in the future to evaluate slip resistance measurement devices under various environments and assist in the design of safer work environments.

[1]  L Strandberg,et al.  On accident analysis and slip-resistance measurement. , 1983, Ergonomics.

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

[3]  T B Leamon,et al.  Occupational slips and falls: more than a trivial problem. , 1995, Ergonomics.

[4]  Mp Wilson,et al.  Development of SATRA Slip Test and Tread Pattern Design Guidelines , 1990 .

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

[6]  Edward J. McVay,et al.  Rampway Safety: Foot Forces as a Function of Rampway Angle , 1994 .

[7]  W English Improved Tribometry on Walking Surfaces , 1990 .

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

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

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

[11]  J D Troup,et al.  Back Pain in Industry: A Prospective Survey , 1981, Spine.

[12]  M. Redfern,et al.  Biomechanics of descending ramps , 1997 .

[13]  Bohdan T. Kulakowski,et al.  Slip Resistance Needs of the Mobility Disabled During Level and Grade Walking , 1990 .

[14]  R Andersson,et al.  Accident data in the new Swedish information system on occupational injuries. , 1983, Ergonomics.

[15]  J W Runge,et al.  The cost of injury. , 1993, Emergency medicine clinics of North America.

[16]  Lennart Strandberg,et al.  The dynamics of slipping accidents , 1981 .

[17]  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.

[18]  Mark S. Redfern,et al.  Slip resistance of the shoe-floor interface under biomechanically-relevant conditions , 1994 .

[19]  P E Ballance,et al.  Operational experience with a portable friction testing device in university buildings. , 1985, Ergonomics.

[20]  D. Chaffin,et al.  A dynamic coefficient of friction measurement device for shoe/floor interface testing , 1990 .

[21]  Bohdan T. Kulakowski,et al.  Evaluation of Performance of Three Slip Resistance Testers , 1989 .

[22]  M. P. Wilson,et al.  Slip resistance testing of shoes — new developments , 1983 .

[23]  Manning Dp,et al.  Slipping accidents causing low-back pain in a gearbox factory. , 1981 .