The ability to measure the level of friction between the human skin and a given textile is critical across fashion and textiles sectors, not least for the development of sporting and protective clothing. A portable custom-made device capable of measuring friction during the skin-textile interaction across often difficult or impossible to investigate body regions with objective repeatability has been established. The friction between a pre-shrunk 100% cotton textile and a quantity of four control surfaces (transparent and patterned polycarbonate plastic, and silicon and lorica surrogate skin) was measured three times per day across five consecutive days. The results clearly demonstrated that the novel friction test device had an excellent repeatability of 0.94 and 0.93 intraclass corelation coefficient for static and dynamic friction coefficient measurement, respectively. The silicon surrogate skin control surface produced the highest friction coefficient, while the pattered polycarbonate plate demonstrated the lowest friction coefficient, suggesting that the physical features of the control surface material influenced the recorded coefficient of friction. It was also revealed that the relationship between the static and dynamic friction coefficient is dependent on the surface material.

测量人体皮肤与特定纺织品之间摩擦水平的能力对于时尚和纺织品行业至关重要，尤其是对于运动和防护服的开发。已经建立了一种便携式定制设备，能够测量皮肤与纺织品相互作用期间的摩擦，通常很难或不可能以客观的可重复性来研究身体区域。在连续五天中每天测量 3 次预缩水 100% 棉织物与四个控制表面（透明和带图案的聚碳酸酯塑料，以及硅和 lorica 替代皮肤）之间的摩擦力。结果清楚地表明，新型摩擦试验装置具有 0.94 和 0 的优异重复性。93 类内相关系数分别用于静态和动态摩擦系数测量。硅替代皮肤控制表面产生最高的摩擦系数，而带图案的聚碳酸酯板表现出最低的摩擦系数，这表明控制表面材料的物理特性影响了记录的摩擦系数。还表明静摩擦系数和动摩擦系数之间的关系取决于表面材料。