M. Tisserand scite author profile

M. Tisserand

5Publications

84Citation Statements Received

6Citation Statements Given

How they've been cited

204

How they cite others

Affiliations

Institut National de Recherche et de Sécurité

Publications

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Progress in the prevention of falls caused by slipping

Tisserand

1985

Ergonomics

125

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Initial research by the INRS showed the importance ofbiomechanical factors in the causes of accidents by slipping. Dynamic friction was shown to be far more significant than static fraction. The measuring procedure which has been developed does not provide a model of walking or slipping but a physical measurement giving the same ranking as subject evaluation methods. , Systematic measurements show the effect on slip resistance of the material used and the configuration of the sole. Following publication of these results, manufacturers have improved the slip resistance of shoes. An internationally acceptable method (ISO) should, however, bedeveloped so that slip resistance, which is such an important factor in accident prevention, can be given as much attention as other features of the sole.Scientific research on the psychophysiology of equilibrium on slippery surfaces is needed, as is applied research on friction with lubricated elastomers and on-site research into floor-surface friction.

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Tribological concepts involved in slipping accident analysis

1995

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According to tribology science, the friction force produced at the sliding interface between a rubber piece and an inflexible surface presents three main components: the first is due to molecular adhesion between the two bodies, it occurs at the regions of real contact; the second is a hysteresis component resulting from the periodic excitation of the bulk of the rubber by surface roughness; the third is due to effects of product shape. The shape of the elastomer product and the conditions in which the friction occurs (lubricant, roughness of the inflexible surface, etc.) determine the appearance of each one of these components and its importance. Experimentations made by the French national research and safety Institute (INRS) revealed adhesion and hysteresis components in the lubricated friction of an elastomer over a representative sample of industrial floor surfaces. Measurements have been made by means of a portable friction tester (PFT) assessing sliding resistance of floor coverings. The sliding movement takes place between a braked test wheel and the floor covering. The effect of product shape is insignificant as the wheel is covered with smooth elastomer. The friction force produced at the sliding interface between the elastomer and the floor covering has been evaluated on smooth and rough floors, and under different lubrication conditions (flooded with water, large, medium and small quantities of mineral oil). Several test wheels, with different and sometimes used rubber coverings, have been employed. The friction force is altered when the elastomer composition or the state of the elastomer that is covering the test wheel changes. The differences pointed out depend also on floor covering roughness and lubrication. The importance of either the adhesion or hysteresis components of the friction force in accordance with the composition and the state of the elastomer that is covering the test wheel, the lubricant amount, and the floor covering roughness enable the interpretation of these differences. Some experimental results are explained from the squeeze lubricant film process. This experimental study permits a better understanding of phenomena produced at the sliding interface between a rubber sole and a floor covering when a pedestrian slips. It also plays a great part in bringing the portable friction tester into operation in order to carry out a measurement campaign of slipping resistance of industrial floors.

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A new method for checking the driving visibility on hydraulic excavators

Hella

Tisserand

Schouller

et al. 1991

International Journal of Industrial Ergonomics

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Analysis of measurements of slip resistance of soiled surfaces on site

1997

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Quantification of the slip resistance of floor surfaces at industrial sites. Part I. Implementation of a portable device

1993

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M. Tisserand

Progress in the prevention of falls caused by slipping

Tribological concepts involved in slipping accident analysis

A new method for checking the driving visibility on hydraulic excavators

Analysis of measurements of slip resistance of soiled surfaces on site

Quantification of the slip resistance of floor surfaces at industrial sites. Part I. Implementation of a portable device

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