Electrode for electrochlorination

1 . Electrode for electrolytic cell comprising a valve metal substrate, an internal electrocatalytic coating and an external electrocatalytic coating of different composition overlaid thereto, the roughness profile of said substrate having an R a value of 4 to 8 μm and an R z value of 20 to 50 μm, said internal electrocatalytic coating containing oxides of iridium, ruthenium and a valve metal selected between tantalum and niobium with an overall specific loading of iridium and ruthenium expressed as metals in said internal electrocatalytic coating ranging 2 to 5 g/m 2 , said external electrocatalytic coating containing noble metal oxides with a specific loading not lower than 7 g/m 2 . 2 . The electrode according to claim 1 , wherein said external electrocatalytic coating comprises a mixture of oxides of iridium, ruthenium and titanium with a molar concentration of ruthenium of 12-18%, a molar concentration of iridium of 6-10% and a molar concentration of titanium of 72-82%. 3 . The electrode according to claim 1 , wherein said internal electrocatalytic coating contains a mixture of oxides of iridium, ruthenium and tantalum with a molar concentration of ruthenium of 42-52%, a molar concentration of iridium of 22-28% and a molar concentration of tantalum of 20-36%. 4 . The electrode according to claim 1 , further comprising a protective layer consisting of valve metal oxides interposed between said substrate and said internal electrocatalytic coating. 5 . A method for the production of an electrode according to claim 1 comprising: thermally treating a valve metal substrate, the roughness profile of said substrate having an R a value of 4 to 8 μm and an R z value of 20 to 50 μm, for a time not lower than 4 hours at a temperature not lower than 560° C.; acid etching; applying an internal electrocatalytic coating by thermal decomposition of a precursor solution, the internal electrocatalytic coating comprising oxides of iridium, ruthenium and a valve metal selected between tantalum and niobium with an overall specific loading of iridium and ruthenium expressed as metals of 2 to 5 g/m 2 ; applying an external electrocatalytic coating by thermal decomposition of a precursor solution, external eletrocatalytic coating containing noble metal oxides with a specific loading not lower than 7 g/m 2 . 6 . The method according to claim 5 , wherein said acid etching step is carried out in 25-30% by weight sulphuric acid containing 5 to 10 g/l of dissolved titanium, at a temperature of 80 to 90° C. until reaching a weight loss not lower than 180 g/m 2 of metal. 7 . The method according to claim 5 comprising, before said internal electrocatalytic coating application step, an additional step of application of a protective layer consisting of valve metal oxides by a technique selected between a thermal treatment of the substrate, a flame or plasma spray application and a thermal decomposition of a precursor solution. 8 . The method according to claim 5 , wherein said external electrocatalytic coating comprises a mixture of oxides of iridium, ruthenium and titanium with a molar concentration of ruthenium of 12-18%, a molar concentration of iridium of 6-10% and a molar concentration of titanium of 72-82%. 9 . The method according to claim 5 , wherein said internal electrocatalytic coating contains a mixture of oxides of iridium, ruthenium and tantalum with a molar concentration of ruthenium of 42-52%, a molar concentration of iridium of 22-28% and a molar concentration of tantalum of 20-36%. 10 . The method according to claim 5 , wherein the electrode further comprises a protective layer consisting of valve metal oxides interposed between said substrate and said internal electrocatalytic coating. 11 . Electrochemical cell for alkali metal hypochlorite production comprising an aqueous electrolyte containing alkali metal chlorides, at least one pair of electrodes, the electrodes each comprising a valve metal substrate, an internal electrocatalytic coating and an external electrocatalytic coating of different composition and higher activity overlaid thereto, the roughness profile of said substrate having an R a value of 4 to 8 μm and an R z value of 20 to 50 μm, said internal electrocatalytic coating containing oxides of iridium, ruthenium and a valve metal selected between tantalum and niobium with an overall specific loading of iridium and ruthenium expressed as metals of 2 to 5 g/m 2 , said external electrocatalytic coating containing noble metal oxides with a specific loading not lower than 7 g/m 2 ; and a timed control system to alternately polarise said electrodes for a predetermined period of time determining the functioning thereof as anode and as cathode respectively. 12 . The cell according to claim 11 , wherein said aqueous electrolyte has an ion chloride concentration of 2 to 20 g/l. 13 . The cell according to claim 11 , wherein said predetermined period of time is 0. 5 to 60 minutes.