表面粗糙度对水滴在方解石表面黏附的影响

以方解石为研究对象, 以表面粗糙度为切入点, 探讨了表面粗糙度对水滴在药剂作用前后方解石表面黏附的影响, 并比较了测量黏附力和计算黏附力。试验结果表明: 天然方解石表面为亲水性表面; 随着表面粗糙度的增加, 水滴在天然方解石表面的接触角减小, 基底直径和黏附力均增加。相反, 在pH值为10时, 与浓度为30 mg/L的油酸钠溶液作用后, 方解石表面变为疏水性表面; 随着表面粗糙度的增加, 水滴在药剂作用后的方解石表面的接触角增加、基底直径和黏附力均减小。同时, 测量黏附力和计算黏附力基本吻合。因而, 借助表面粗糙度调控可改变水滴在方解石表面的黏附特性, 从而可为表面粗糙度调控方解石的可浮性提供借鉴。 

Investigation on the Effect of Surface Roughness on the Adhesion of Water Droplets on Calcite Surface

In this paper, calcite was selected as the research object, and surface roughness was taken as the key point, the effect of surface roughness on the adhesion of water droplets on calcite surface before and after conditioning with sodium oleate was investigated. In addition, the measured adhesive force and the calculated adhesive force were compared. Experimental results revealed that the surface of natural calcite was hydrophilic; with the increase of surface roughness, the contact angle of water droplets on the surface of natural calcite decreased while both the base diameter and the adhesion force increased. However, the surface of calcite after conditioning with 30 mg/L NaOL at pH value of 10 became hydrophobic; with the increase of surface roughness, the contact angle of water droplets on the conditioned surface increased while both the base diameter and the adhesive force decreased. Meanwhile, the measured adhesive force agreed well with the calculated force. Therefore, the adhesion characteristics of water droplets on calcite surface could be regulated by controlling surface roughness, which could provide a reference for the regulation of the floatability of calcite by surface roughness.