Effect of particle size of the slip resistant strip on floor slip resistance

• Main Authors: huang, Yu-feng, 黃淯鋒
• Other Authors: Li,Kai-Way
• Format: Others
• Language: zh-TW
• Published: 2012
• Online Access: http://ndltd.ncl.edu.tw/handle/76908528958149833132

碩士 === 中華大學 === 工業管理學系碩士班 === 100 === Slip and fall accident are common both in the workplace andat the home environment. Factors causing fall and slipping are complicated. In order to increase slip resistance, non-slip aids, such as copper anti-slip, slip, slip bricks, anti-slip coatings, to increase the roughness and texture of the floor, so as to improve friction coefficient values have been adapted. This study aims at exploring the different diameter steel sand-sliding slope in a different pollution road antiskid effect, and the development of a regression model to describe the roughness of floors, shoes and friction coefficient of relationship between grain and ground status. Experimental results are the main factors and interaction effects between each factor has reached a significant level (p<0.001). Study finds anti-skid diamond grit size larger, higher the coefficient of friction. This study as well as the establishment of a regression model forecast of friction coefficient values, its p<0.0001,R^2= 0.948, this study on the regression model to forecast and the same shoe line and skid diamond sand particle size ranges, different slope angles and the coefficient of friction of the floor.