Silicone is a semi-organic material, obtained by industrial processes and is classified as a polymeric. It is composed basically of silicon atoms connected to oxygen and radicals containing carbon witch provides the material with particular fisio-chemical characteristics such as chemical inertia and dimensional stability maintaining its integrity in the most diverse ways of application. Amongst its several utilities, silicone is indicated in confectioning facial prosthesis for it presents the required qualities of a good restoring material. In this study we shall examine the mechanical behavior of silicone sample indications in facial oral prosthesis, after the accelerating ageing in a solution that is biochemically similar to human sweat and an environment saturated with sodium Clorets, simulating the silicone/skin interface environment under normal and straining conditions. We studied the mechanical resistance to tearing of the samples of silicone MDX4-4210, fabricated by Dow Corning Corporation, in accordance to ASTM 624 after an immersion in a biochemical solution, compatible with the human sweat and exposure to saline fog, ASTM B 117 Salty Spray (fog) testing, saturated at 5% of sodium cloret in periods of 12, 36 and 72 hours exposure testing. Were considered the results of 21 CPs tests, statistically evaluated, adopting the significance level at 5% (0,050) and the results that were obtained allow us to conclude that in both cases the value that relates to the resistance to tearing than those of the group control, all thou it is understood that this value alteration corresponds to the superficial deterioration process of the silicone, where the crystals of the solution sediment in superficial pores, characteristic of the elastomerics, interposing itself to the intrinsic movements promoting lost of the original properties.