- Title
- The effects of testing procedure on critical fall height determination for third-generation synthetic turf
- Creator
- Twomey, Dara; Otago, Leonie; Saunders, Natalie
- Date
- 2011
- Type
- Text; Journal article
- Identifier
- http://researchonline.federation.edu.au/vital/access/HandleResolver/1959.17/33379
- Identifier
- vital:3927
- Identifier
-
https://doi.org/10.1007/s12283-011-0061-8
- Identifier
- ISSN:1369-7072
- Abstract
- Test procedures and their accuracy in determining critical fall height (CFH) on sporting grounds are paramount to player safety. The procedure currently adopted for synthetic turf in Australian football [1] consists of four consecutive drops at various drop heights at three test locations on the sample. The quantity and packing of the infill in third-generation turf and the pooling effect of the rubber particles with consecutive drops suggests that the current standard protocol may need re-assessment. Therefore, the purpose of this pilot study was to investigate whether current methods of testing for CFH are appropriate for third-generation synthetic turf or whether an alternative or adapted method needs to be developed. CFH was measured, using a HISUN Uniaxe-II Impact Tester, on 12 combinations of synthetic turf samples (four different products with three shock pad options). Three conditions were investigated on each sample; the existing protocol; an alternative 12 single-drop protocol and four single drops from the CFH determined from the existing protocol. A significant difference was found for both absolute and percentage difference between the existing and 12 single-drop protocol, with p = 0. 001 and t = 4. 33 and p < 0. 001 and t = 6. 03, respectively. There was also a significant difference between the CFH reached with and without a shock pad for both the existing protocol and the 12 single-drop protocol. The results of this pilot study demonstrate that differences do occur with alterations to the existing protocol and highlight the need for a more detailed characterisation of testing methods on third-generation synthetic turf and the response of surfaces to them. © 2011 International Sports Engineering Association.
- Relation
- Sports Engineering Vol. 13, no. 3 (2011), p. 145-151
- Rights
- Copyright Springer
- Rights
- This metadata is freely available under a CCO license
- Subject
- Adapted methods; Characterisation; Drop height; Height determination; Impact testers; Pilot studies; Player safety; Rubber particles; Single drops; Standard protocols; Synthetic turf; Test location; Test procedures; Testing method; Testing procedure; Third generation; Testing; Drops
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