The United States ANSI method (ASTM C1028) gives, through the use of a force gauge (horizontal dynamometer) pull meter method, the static friction coefficient of the surface.

The USA Occupational Safety & Health Administration (OSHA) currently recommends that the static COF be at least 0.5 for all walkway surfaces under both wet and dry conditions. The Americans Disabilities Act (ADA) recommends the dry static COF of 0.6 on any flat or horizontal surfaces both wet and dry, but 0.8 for any inclined or ramp areas.

COF is defined as the friction force opposing sliding motion divided by the force normal to the surface.

People walk differently (most people demand a consistent COF of between 0.25 - 0.3 walking normally) Long fast strides demand a higher friction. Although slippery surfaces or steep slopes provide low COF, we often perceive the potentially dangerous floor, shorten our stride and walk slowly.

Including the presence of contaminants a 0.4 COF should be demanded for safety.

Millions of combinations possible: several shoe materials & design features, floor materials, surface profiles, degrees of wear and cleanliness, type & amount of contamination, walk patterns & angle of contact, body weight, vertical force, rate of weight application, lighting & surface perception, eyesight, inebriation, medication, etc.

It's important to realize that the COF testing is flawed. The current testing methods, both in the testing laboratory and in the field, are flawed. In addition, there are so many other factors and shoe materials used in real pedestrian traffic conditions that the results are inconclusive at confirming how a surface or tile will provide adequate slip-resistance; especially, once down and subjected to periods of differing wear abrasion and daily maintenance regimens.

The best solution, the best objective, is to provide a superior COF and maximize these characteristics for industrial, commercial, and residential needs.