Abstract
AbstractThis study analyzed the functional design by investigating the distribution of clothing pressure of cycling knee brace using a three-dimensional virtual clothing program. Based on the average body size of Korean men in their 40 s, clothing pressure in wearing and cycling condition were collected on five knee brace products. According to the results, bonding fabric products had a high possibility of increasing inconvenience, as they had a higher clothing pressure at all measurement points and soared in motion application. It could be adjusted differently depending on the location by mixing materials or using details, so the design with thick pile fabric or velcro strap fastening added more pressure to the lower part of the knee. The length and circumference size also affected the clothing pressure. The design with tight upper and lower circumference pressured excessively the legs and rolled up and clumped together, while the one with loose lower circumference lacked the sufficient strength to support the knees. Also, the design with a curved outline due to the difference in the length of the front and back, increased the clothing pressure on the lower thigh or the upper calf. Therefore, the functional design of cycling knee braces requires comprehensive consideration of material thickness and structure, detailed size of length and circumference, fastening details, to reduce the pressure at the center and top of the knee and to support the lower part with proper pressure, as reflecting the pressure on the body location that come into contact during the motion.
Funder
National Research Foundation of Korea
Publisher
Springer Science and Business Media LLC
Subject
Marketing,Strategy and Management,Materials Science (miscellaneous),Cultural Studies,Social Psychology
Reference23 articles.
1. Baek, Y. J., Ju, H., Lee, J., & Oh, K. W. (2022). Effects of wearing knee-guards on skin pressure and skin blood flow during dynamic motions. Fashion and Textiles. https://doi.org/10.1186/s40691-022-00288-7
2. Buehler, R., & Pucher, J. (2021). COVID-19 impacts on cycling, 2019–2020. Transport Reviews, 41(4), 393–400. https://doi.org/10.1080/01441647.2021.1914900
3. Denton, M. J. (1972). Fit, stretch, and comfort. Textiles, 12, 12–17.
4. DeVita, P., Torry, M., Glover, K. L., & Speroni, D. L. (1996). A functional knee brace alters joint torque and power patterns during walking and running. Journal of Biomechanics, 29(5), 583–588. https://doi.org/10.1016/0021-9290(95)00115-8
5. Eco-Counter. (2021). Bike count dashboard: tracking the growth of cycling by country. Eco-Counter. Retrieved from https://www.eco-counter.com/cycling-data-tracker/