Investigation of the curved trajectory formation mechanism of a curling stone focusing on the contact area with ice
Author:
Affiliation:
1. Mechanical and Electrical Engineering Program, Kitami Institute of Technology
2. Civil and Environmental Engineering Program, Kitami Institute of Technology
Publisher
Japan Society of Mechanical Engineers
Link
https://www.jstage.jst.go.jp/article/transjsme/90/930/90_23-00309/_pdf
Reference29 articles.
1. Denny, M., Curling rock dynamics, Canadian Journal of Physics, Vol.76, No.4 (1998), pp.295–304.
2. Denny, M., Curling rock dynamics, Towards a realistic model, Canadian Journal of Physics, Vol.80, No.9 (2002), pp.1005–1014.
3. Dzikowski, B., Weremczuk, J. and Pachwicewicz, M., Acceleration-Based Method of Ice Quality Assessment in the Sport of Curling, Sensors, Vol.22, No.3 (2022), pp.1–13.
4. Harrington, E.L., An experimental study of the motion of curling stones, Transactions of the Royal Society of Canada, Vo.18, No.3 (1924), pp.247–259.
5. Honkanen, V., Ovaska, M., Alava, M.J., Laurson, L. and Tuononen, A.J., A surface topography analysis of the curling stone curl mechanism, Scientific Reports, Vol.8, No.1 (2018), pp.1–8.
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