MOTIONS OF DROPLETS ON HYDROPHOBIC MODEL SURFACES INDUCED BY THERMAL-GRADIENTS

We have studied experimentally the motions of liquid droplets deposite d on nonwettable surfaces (silanized silicon wafers) submitted to hori zontal thermal gradients delT. Systematic measurements of the drift ve locity V for different droplet radii R show the following: (i) the dro plets move only above a critical radius R(c) which depends on contact angle hysteresis and is inversely proportional to delT; (ii) above R(c ), V increases linearly with R and delT; (iii) for large radii R (drop lets flattened by gravity), V reaches a saturation value. The droplet contour is no longer circular, but presents two straight-line segments in the direction of delT. The flow patterns at the free surface of th e droplets have been monitored by video recording the displacement of floating particles.