Effect of impact angle on glass surfaces eroded by sand blasting

Abstract In a previous work, we studied the effects of sand blasting on the roughness, the optical transmission and the mechanical strength of a soda lime glass for sand blasting durations up to 150 min and under a constant impact angle of 90°. In the present work, we examine the effect of impact angles (30 to 90°) for relatively small durations up to 60 min on the surface roughness and the optical transmission. The roughness increases and tends towards a plateau, while the optical transmission decreases and tends towards a threshold estimated at about 50% of the initial transmission. We noticed that the samples erosion damage becomes weaker for impact angles less than 90° (90° angle corresponds to the flux normal to the samples). Microscopic observations reveal that the damage is similar to that of sharp indentation damage type Vickers indentation. There is formation of a plastic imprint with radial cracks and some scaling caused by the development of lateral cracks that extend and curve up to the surface. From the expression of the damage rate as defined in the literature, we introduced a function relating the impact angles and the sand blasting durations to the optical transmission. The experimental data obtained seem to fit quite well to the proposed function.