Abstract: A high performance protecting surface coating suitable for repairing damaged surfaces, and methods, is disclosed. The coating comprises a resin such as epoxy loaded with inert particles, preferably ceramic, and a curing agent for hardening. The coating of the present invention does not run or sag when applied to a substantially vertical surface.
Abstract: A high performance protecting surface coating, and methods, is disclosed. The coating comprises a resin such as epoxy loaded with inert particles, preferably ceramic, a curing agent for hardening, and a selected additive such as a solvent. The protective coating of the present invention has adhesion strength of at least 2,000 psi and impact resistance of at least 90 inch-lbs.
Abstract: A protective coating of finely divided abrasion resistant resin is diluted with a solvent and applied to a surface. The applied coating is cured to achieve either a single layer of inert dispersed in the resin, or two layers including a dense layer of inert in resin covered by a thin layer of resin, and to provide a glossy or matte appearance as desired.