Powder coating (electrostatic painting) method and plant for non electrically conductive elements, and in particular brake pads

The invention claimed is: 1. A method for powder coating of brake pads made with electrically non conductive materials, the brake pads including a metallic back plate upon which a block of a non-conductive friction material is secured and in which the back plate is at least partially made from iron or an iron compound, said method comprising: pre-treating the brake pads to make the non conductive friction material conductive on at least one surface thereof to be painted; electrostatically depositing a painting powder on the surface to be painted; and baking, in which the painting powder is melted and polymerized to form a coating layer on the surface to be painted, wherein the pre-treating step uniformly dampens at least the at least one surface to be painted and, each entire brake pad, by covalent retention of water, to such an extent to produce a measurable increase of weight of the electrically non conductive brake pads, such as to make such brake pads electrically conductive; the water retained on the electrically non conductive brake pads being subsequently eliminated at least in part during the baking step, wherein the pre-treating step is carried out with only low mineral content water devoid of ions that would chemically react with iron or iron compounds and having a specific conductivity comprised between 1 and 5,000 μS/cm measured at 20° C., and by spraying high pressure jets of said low mineral content water onto the electrically non conductive brake pads so as to create a mist all around the brake pads and at the same time aspirating said mist by means of a suction hood wherein the pretreating step renders the non-conductive friction material conductive, but without chemically reacting with the back plate of the brake pad so as to create oxidation during the baking step. 2. A method according to claim 1 , wherein during the pre-treating step the amount of low mineral content water is sprayed by the high pressure jets to be retained on each electrically non conductive element such as to produce an increase of weight of each electrically non conductive element between 0.15% and 0.30%. 3. A method according to claim 1 , wherein the high pressure jets of the low mineral content water are addressed onto the electrically non conductive elements from the bottom upwards while the elements move on a rack having powered rolls, over which said suction hood is arranged and in which an empty space is provided between the nozzles producing the high pressure jets of low mineral content water and the powered rolls of the rack. 4. The method according to claim 1 , wherein the non-conductive friction material block of the brake pads is made from a non-asbestos organic material.