BACKGROUND: Vinyl composite tile (VCT), which is a common flooring in workplaces, is sometimes utilized as the standard floor material for mechanical slip testing experiments. Unfortunately, VCT is a sub-optimal standard test material, since it changes over time and is difficult to manufacture consistently. PURPOSE: This study aimed to identify a durable laboratory-grade substitute flooring that could provide traction results that are representative of footwear performance on VCT. METHODS: Eight polymer tiles (cast nylon, polyethylene, polycarbonate, acetal, Delrin, PTFE, polypropylene, and nylon) were tested and the available coefficient of friction (ACOF) was measured and compared with that of two VCT designs. First, a screening test was performed to identify good material candidates based on six shoes and two contaminants (water and oil). Two surrogate candidate tiles were then tested across 17 shoes and three contaminant conditions (water, sodium laurel sulfate, and oil). RESULTS: Cast nylon tile was found to be the most generalizable VCT surrogate, exhibiting strong correlations with both VCTs for oil contamination. None of candidates were representative of the VCTs for other contaminants. CONCLUSIONS: Cast nylon may be a useful alternative for VCT for standard slip testing of footwear in oily conditions.
BACKGROUND: Vinyl composite tile (VCT), which is a common flooring in workplaces, is sometimes utilized as the standard floor material for mechanical slip testing experiments. Unfortunately, VCT is a sub-optimal standard test material, since it changes over time and is difficult to manufacture consistently. PURPOSE: This study aimed to identify a durable laboratory-grade substitute flooring that could provide traction results that are representative of footwear performance on VCT. METHODS: Eight polymer tiles (cast nylon, polyethylene, polycarbonate, acetal, Delrin, PTFE, polypropylene, and nylon) were tested and the available coefficient of friction (ACOF) was measured and compared with that of two VCT designs. First, a screening test was performed to identify good material candidates based on six shoes and two contaminants (water and oil). Two surrogate candidate tiles were then tested across 17 shoes and three contaminant conditions (water, sodium laurel sulfate, and oil). RESULTS: Cast nylon tile was found to be the most generalizable VCT surrogate, exhibiting strong correlations with both VCTs for oil contamination. None of candidates were representative of the VCTs for other contaminants. CONCLUSIONS: Cast nylon may be a useful alternative for VCT for standard slip testing of footwear in oily conditions.
Entities:
Keywords:
Coefficient of Friction; Footwear; Slip; Traction; Vinyl composite tile
Authors: M S Redfern; R Cham; K Gielo-Perczak; R Grönqvist; M Hirvonen; H Lanshammar; M Marpet; C Y Pai; C Powers Journal: Ergonomics Date: 2001-10-20 Impact factor: 2.778
Authors: W R Chang; R Grönqvist; S Leclercq; R J Brungraber; U Mattke; L Strandberg; S C Thorpe; R Myung; L Makkonen; T K Courtney Journal: Ergonomics Date: 2001-10-20 Impact factor: 2.778
Authors: Christopher M Powers; Mark G Blanchette; John R Brault; Jim Flynn; Gunter P Siegmund Journal: J Forensic Sci Date: 2010-01-25 Impact factor: 1.832