Property enhancement of surfaces by electrolytic micro arc oxidation

What is claimed is: 1. A tubular product for oilfield applications, the tubular product comprising: a tubular substrate comprising a ferrous alloy, wherein the tubular substrate has an inner surface characterized by an inner diameter and an outer surface characterized by an outer diameter; a first layer deposited directly onto at least one of the inner surface or the outer surface of the tubular substrate, wherein the first layer comprises aluminum; a second layer being between 1 μm and 40 μm thick and comprising aluminum oxide formed by micro arc oxidation of a portion of the first layer, wherein the second layer comprises an amount of aluminum oxide that is stoichiometrically equivalent to an amount of aluminum oxidized in the first layer, and wherein the second layer defines a plurality of pores, including at least one pore extending into the first layer; and a third layer filling the plurality of pores in the second layer, wherein the portion of the at least one pore in the first layer is filled with the third layer. 2. The tubular product of claim 1 , wherein nanoparticles are embedded in the second layer. 3. The tubular product of claim 2 , wherein the nanoparticles include a material selected from the group consisting of tungsten carbide, silicon carbide, boron carbide, silicon nitride, aluminum nitride, cubic boron nitride, a carbon nanotube (CNT), graphene nano platelet, and reduced graphene oxide. 4. The tubular product of claim 2 , wherein the nanoparticles comprise a H 2 S sensing material. 5. A tubular product for oilfield applications, the tubular product, comprising: a tubular substrate comprising a ferrous alloy, wherein the tubular substrate has an inner surface characterized by an inner diameter and an outer surface characterized by an outer diameter; a first layer deposited directly onto at least one of the inner surface or the outer surface of the tubular substrate, wherein the first layer comprises aluminum; a second layer being between 1 μm and 50 μm thick and comprising aluminum oxide formed by micro arc oxidation of a portion of the first layer, wherein the second layer comprises an amount of aluminum oxide that is stoichiometrically equivalent to an amount of aluminum oxidized in the first layer, and wherein nanoparticles are embedded in the second layer, the nanoparticles comprising a H 2 S sensing material comprising CuO—SnO 2 Core/Shell PN-Junction nanorods, CuO modified SnO 2 nanoribbons, CuO doped SnO 2 nanowires, WO 3 nanoparticle, or ZnO nanorods. 6. The tubular product of claim 2 , wherein the tubular product has greater corrosion resistance than the tubular substrate without the first layer and the second layer. 7. The tubular product of claim 1 , wherein the inner diameter is greater than or equal to about 0.25 inches and less than or equal to about 6 inches. 8. The tubular product of claim 1 , wherein the tubular product is characterized by a length, and the length is between about 18 feet and about 25 feet. 9. An oilfield tubular comprising: a substrate comprising a ferrous alloy; a first layer directly on a surface of the substrate, wherein the first layer comprises aluminum deposited by a thermal spray process, a cold spray process, a hot dip aluminizing (liquid) process, a vapor aluminizing process, a plasma and ion deposition process, or an electrolytic deposition process; and a second layer over a second portion of the first layer, wherein the second layer is between 1 μm and 40 μm thick and comprises aluminum oxide, and wherein the second layer is formed by oxidizing a first portion of the first layer by micro arc oxidation, wherein the second layer comprises an amount of aluminum oxide that is stoichiometrically equivalent to an amount of aluminum oxidized in the first layer, and wherein the second layer defines a plurality of pores, including at least one pore extending into the first layer; and a third layer filling the plurality of pores in the second layer, wherein the portion of the at least one pore in the first layer is filled with the third layer. 10. The oilfield tubular of claim 9 , wherein formation of the second layer includes immersing the substrate and the first layer in an alkaline electrolytic liquid bath. 11. The tubular product of claim 1 , wherein the second layer is between 1 μm and 30 μm thick. 12. The tubular product of claim 11 , wherein the second layer is between 5 μm and 30 μm thick. 13. The oilfield tubular of claim 9 , wherein the second layer is between 1 μm and 30 μm thick. 14. The oilfield tubular of claim 13 , wherein the second layer is between 5 μm and 30 μm thick. 15. The tubular product of claim 1 , the third layer including a lubricant. 16. The tubular product of claim 15 , the lubricant including a solid lubricant that includes one or more of graphite, polytetrafluorethylene, MoS 2 , or WS 2 . 17. The tubular product of claim 1 , the third layer including a triplex coating. 18. The tubular product of claim 1 , the third layer including one or more of epoxy phenolics, polyphenylene sulfide, polytetrafluorethylene, or MoS 2 . 19. The tubular product of claim 4 , the H 2 S sensing material comprising CuO—SnO 2 Core/Shell PN-Junction nanorods, CuO modified SnO 2 nanoribbons, CuO doped SnO 2 nanowires, WO 3 nanoparticle, or ZnO nanorods.