Journal article
Progress and challenges in numerically modelling solid sports balls with application to softballs
Journal of sports sciences, Vol.27(4), pp.353-360
02/15/2009
Handle:
https://hdl.handle.net/2376/109354
PMID: 19184711
Abstract
Much of the work surrounding finite element simulation of bat-ball impacts has focused on techniques describing the ball. Determining the accuracy of these models has been hindered by challenges in experimentally characterizing the ball's response. In the following, dynamic mechanical analysis and an instrumented impact test were used to characterize the solid ball at deformation rates representative of play. The ball was described in the numerical model as a linear viscoelastic material. It was observed that a Prony series model based on small deformation dynamic mechanical analysis did not provide sufficient energy loss upon impact, while a simpler Power Law model, fitted to large deformation data, described the measured energy loss and impact force over a range of speeds. Results of a parametric study are presented as a guide towards tailoring the parameters of the Power Law model to match the measured energy loss and impact force. Discrepancies observed between the experiment and the numerical model suggest that the ball response should be characterized in environments closely resembling game conditions.
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Details
- Title
- Progress and challenges in numerically modelling solid sports balls with application to softballs
- Creators
- Lloyd V Smith - School of Mechanical and Materials Engineering, Washington State UniversityJoseph G Duris - School of Mechanical and Materials Engineering, Washington State University
- Publication Details
- Journal of sports sciences, Vol.27(4), pp.353-360
- Academic Unit
- Mechanical and Materials Engineering, School of
- Publisher
- Routledge
- Identifiers
- 99900547373101842
- Language
- English
- Resource Type
- Journal article