Effect of Friction-Induced Subsurface Damage on Chemical Dissolution of Borosilicate Glass

Effect of friction-induced surface damage on the dissolution behavior of borosilicate glass was investigated by optical microscopy, reciprocating ball-on-flat tribometry, and optical profilometry. The results show that the corrosion behaviors of borosilicate glass are sensitive to the type of friction-induced subsurface damage. An enhanced dissolution rate at the wear track appears when forming the subsurface densification of glass and disappears as thermally annealing the wear track at (0.9×Tg)K for 2h. In contrast, an enhanced dissolution volume at the wear track still occurs when forming the subsurface cracking of glass under given tribological conditions and does not disappear after thermally annealing the wear track at (0.9×Tg)K for 2h, but disappears only when thermally annealing at a higher temperature for a longer duration. © 2021, Editorial Department of Journal of the Chinese Ceramic Society. All right reserved.