Gupta Shubham, Sharma Dishant, Singla Rohan, Chanda Arnab
Centre for Biomedical Engineering, Indian Institute of Technology (IIT), New Delhi, India.
Department of Biomedical Engineering, All India Institute of Medical Sciences (AIIMS), New Delhi, India.
IISE Trans Occup Ergon Hum Factors. 2024 Oct-Dec;12(4):233-245. doi: 10.1080/24725838.2024.2430199. Epub 2024 Nov 29.
OCCUPATIONAL APPLICATIONSWe systematically examined the effect of obliquely-oriented shoe tread channels on traction performance, by manipulating tread angle, thickness, and gap width across 24 outsole designs. Through robotic slipping tribotesting and computational fluid dynamics modeling, outsoles with a tread inclination angle of 75 and 105 degrees, 2 mm tread thickness, and 5 mm gap width exhibited superior dry and wet traction. This work introduces experimental and computational techniques, offering potential for footwear manufacturers and those who prefer formal shoes to understand the effect of designs on the slip-resistance of a footwear for better safety.
职业应用
我们通过操控24种鞋底设计的花纹角度、厚度和间隙宽度,系统地研究了倾斜的鞋底花纹沟槽对牵引性能的影响。通过机器人滑动摩擦测试和计算流体动力学建模,发现花纹倾斜角度为75度和105度、花纹厚度为2毫米、间隙宽度为5毫米的鞋底在干湿路面上均表现出卓越的牵引性能。这项工作引入了实验和计算技术,为鞋类制造商以及那些喜欢正装鞋的人提供了了解设计对鞋类防滑性能影响的可能性,以提高安全性。
