不同界面鞋底防滑性能灵敏性研究与分析
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摘要
本文通过鞋底防滑试验讨论了材质及花纹对摩擦系数的影响,并以水作为界面介质对整鞋在玻璃板和陶瓷板上分别进行了动摩擦系数和静摩擦系数的测定,分析了从干态界面到湿态界面时鞋底防滑性能的灵敏性。
In this paper, the dynamic friction coefficient and the static friction coefficient of the shoes were measured on glass plate and ceramic plate respectively with water as the interface medium. The influence of external environmental factors on the anti-skid performance of shoes was analyzed. According to the experimental results, the sensitivity of sole friction coefficient when walking from dry state to wet state was analyzed.
In this paper, the dynamic friction coefficient and the static friction coefficient of the shoes were measured on glass plate and ceramic plate respectively with water as the interface medium. The influence of external environmental factors on the anti-skid performance of shoes was analyzed. According to the experimental results, the sensitivity of sole friction coefficient when walking from dry state to wet state was analyzed.
引文
[1]叶正茂.鞋类防滑性能实验方法的研究[J].中国个体防护装备,2013(4):35-38.
[2]费国平,洪晓杰.鞋类防滑性安全风险等级分析与研究[J].中国皮革,2016,45(8).
[3]李晶,段晓霞,孙世彧.鞋类防滑性能影响因素及评价研究进展[J].皮革科学与工程,2014,24(5).
[4]杜少勋,吴洁.地面状况与运动鞋大底花纹功能关系的研究[J].陕西科技大学学报,2004,22(3):169-174.
[5]陈钊钰,杨承杰,丁绍兰.温度和材料对鞋底防滑性能影响的研究[J].中国皮革,2006(2):126-129.
[6]孙辰逸,夏新兴,黄小凯.鞋底防滑性能的影响因素及其分析[J].西部皮革,2016(5):69-73.
[7]谢世汉.为什么静摩擦系数大于动摩擦系数[J].江西师范大学学报(自然科学版),1984(2):46-48.
[2]费国平,洪晓杰.鞋类防滑性安全风险等级分析与研究[J].中国皮革,2016,45(8).
[3]李晶,段晓霞,孙世彧.鞋类防滑性能影响因素及评价研究进展[J].皮革科学与工程,2014,24(5).
[4]杜少勋,吴洁.地面状况与运动鞋大底花纹功能关系的研究[J].陕西科技大学学报,2004,22(3):169-174.
[5]陈钊钰,杨承杰,丁绍兰.温度和材料对鞋底防滑性能影响的研究[J].中国皮革,2006(2):126-129.
[6]孙辰逸,夏新兴,黄小凯.鞋底防滑性能的影响因素及其分析[J].西部皮革,2016(5):69-73.
[7]谢世汉.为什么静摩擦系数大于动摩擦系数[J].江西师范大学学报(自然科学版),1984(2):46-48.