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Literature DB >> 31568960

Influence of averaging time-interval on shoe-floor-contaminant available coefficient of friction measurements.

Kurt E Beschorner¹, Arian Iraqi², Mark S Redfern³, Brian E Moyer⁴, Rakié Cham⁵.

Abstract

Available coefficient of friction (ACOF) is a common metric of footwear traction performance. ACOF is the ratio of friction to normal force, often averaged over a time-interval. The time-interval needed to achieve repeatable and valid ACOF is unknown. A post-hoc analysis was performed on nine shoe-floor-contaminant combinations to assess the repeatability and bias of data averaged across 4 time-intervals (2 ms, 50 ms, 100 ms, 200 ms) after the target normal force was reached. The ability to predict human slips was assessed for ACOF across these intervals. Differences in repeatability and validity across the four intervals were small. However, statistically significant differences were observed for the shortest compared with the longest interval (lower repeatability yet modestly improved predictive ability). Given the limited impact of time-interval on the results, a shorter interval of 50 ms is recommended to enable testing of smaller floor samples.

Entities: Chemical Disease Gene Species

Keywords: Shoe traction; Slips, trips, and falls; Tribometers

Mesh：

Year: 2019 PMID： 31568960 PMCID： PMC6922306 DOI： 10.1016/j.apergo.2019.102959

Source DB: PubMed Journal: Appl Ergon ISSN： 0003-6870 Impact factor: 3.661

19 in total

Review 1. The role of friction in the measurement of slipperiness, Part 1: friction mechanisms and definition of test conditions.

Authors: W R Chang; R Grönqvist; S Leclercq; R Myung; L Makkonen; L Strandberg; R J Brungraber; U Mattke; S C Thorpe
Journal: Ergonomics Date: 2001-10-20 Impact factor: 2.778

2. The role of friction in the measurement of slipperiness, Part 2: survey of friction measurement devices.

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

3. Efficacy of a rubber outsole with a hybrid surface pattern for preventing slips on icy surfaces.

Authors: Takeshi Yamaguchi; Jennifer Hsu; Yue Li; Brian E Maki
Journal: Appl Ergon Date: 2015-05-19 Impact factor: 3.661

4. Effects of slip testing parameters on measured coefficient of friction.

Authors: Kurt E Beschorner; Mark S Redfern; William L Porter; Richard E Debski
Journal: Appl Ergon Date: 2007-01-02 Impact factor: 3.661

5. The influence of footwear tread groove parameters on available friction.

Authors: Mark G Blanchette; Christopher M Powers
Journal: Appl Ergon Date: 2015-04-21 Impact factor: 3.661

6. Required coefficient of friction during level walking is predictive of slipping.

Authors: Kurt E Beschorner; Devon L Albert; Mark S Redfern
Journal: Gait Posture Date: 2016-06-11 Impact factor: 2.840

7. Occupational slip, trip, and fall-related injuries--can the contribution of slipperiness be isolated?

Authors: T K Courtney; G S Sorock; D P Manning; J W Collins; M A Holbein-Jenny
Journal: Ergonomics Date: 2001-10-20 Impact factor: 2.778

8. Predicting slips based on the STM 603 whole-footwear tribometer under different coefficient of friction testing conditions.

Authors: Kurt E Beschorner; Arian Iraqi; Mark S Redfern; Rakié Cham; Yue Li
Journal: Ergonomics Date: 2019-02-26 Impact factor: 2.778