An apparatus and a method for determining the slip resistance of shoes and floors by simulation of human foot motions

An apparatus to measure the coefficient of kinetic friction (μ k ) between the shoe sole and the underfoot surface was constructed, and a method including criteria to evaluate the risk of slipping during walking was developed. The apparatus is a prototype stationary step simulator capable of simulat...

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Bibliographic Details
Published in:Ergonomics 1989-08, Vol.32 (8), p.979-995
Main Authors: GRÖNQVIST, RAOUL, ROINE, JOUKO, JÄRVINEN, ERKKI, KORHONEN, EERO
Format: Article
Language:English
Subjects:
Accidental Falls - prevention & control
Accidents
Accidents, Occupational - prevention & control
Applied physiology
Biological and medical sciences
Biomechanical Phenomena
Coefficient of kinetic friction
Computers
Equipment Design
Equipment Safety
Human physiology applied to population studies and life conditions. Human ecophysiology
Humans
Locomotion
Lubricants
Medical sciences
Models, Biological
Reproducibility of Results
Safety criteria
Shoes
Shoes and floors
Simulation of foot motions
Slip resistance
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Summary:An apparatus to measure the coefficient of kinetic friction (μ k ) between the shoe sole and the underfoot surface was constructed, and a method including criteria to evaluate the risk of slipping during walking was developed. The apparatus is a prototype stationary step simulator capable of simulating the movements of a human foot and the forces applied to the underfoot surface during an actual slip, and the drainage capability of the contact surface between the shoe sole and the flooring when different lubricants or contaminants are used. The apparatus consists of a movable artificial foot controlled by a computer with the aid of three hydraulic cylinders. The frictional force (F μ ), the normal force (F N ) and their ratio (μ k = F μ /F N ) are measured with a two-way force platform when the foot slides along its surface. Two separate gait patterns, heel-slide (μ k1 ) and sole-slide (μ k2 ) gait pattern, are used for the evaluations. The method classifies studied shoe, lubricant and underfoot surface combinations into five slip resistance classes according to the measured μ k1 The slip resistance assessments are specified with some complementary safety criteria, e.g., the ratio μ k1 / μ k2 The reliability of the developed measurement method was assessed in an international comparison test. According to available results discussed in this paper, our method seems to be valid and the slip resistance measurements seem to be repeatable.
ISSN:0014-0139
1366-5847
DOI:10.1080/00140138908966859