Process for forming a protective coating on the surface of a metal part

摘要

The present invention relates to a process for forming on the surface of a metal part a protective coating containing aluminium and zirconium, in which process said part and a cement made of an aluminium alloy are brought into contact with a gas at a treatment temperature in a treatment vessel, the gas comprising a carrier gas and an activator, the activator reacting with the cement to form a gaseous aluminium halide that decomposes on the surface of the part, depositing metallic aluminium thereon, the activator containing a zirconium salt such as ZΓO (¾ obtained from granules of a zirconium salt), disassociation reactions of said zirconium salt taking place within a disassociation temperature range with formation of a Zr metal coating on the surface of the part, the assembly comprising the part, the cement and the zirconium salt granules is progressively heated in the chamber from room temperature up to the treatment temperature, the process being characterized in that the treatment chamber is maintained at an overpressure with no carrier gas flow throughout the temperature range corresponding to the disassociation reactions of the zirconium salt.

主权项

1. A process for forming a protective coating comprising aluminum and zirconium on a surface of a metal part, the process comprising:
gradually heating the metal part, a cement that comprises an aluminum alloy, and zirconium salt granules from an ambient temperature up to a treatment temperature while maintaining at an over-pressure in a treatment chamber, thereby dissociating zirconium salt granules to obtain a zirconium salt as an activator and depositing Zr metal at the surface of the metal part and contacting the metal part and the cement with a gas comprising a carrier gas and an activator at a treatment temperature thereby reacting the activator with the cement and generating a gaseous aluminum halide, which is capable of decomposing at the surface of the metal part and depositing metallic aluminum thereon, wherein the gradually heating does not comprise circulating a carrier gas through the treatment chamber over a temperature interval corresponding to a dissociation reaction of the zirconium salt and wherein the carrier gas is circulated after a temperature of the treatment chamber has exceeded said temperature interval, so that a diffused aluminization layer is formed on the surface, so that an additional aluminization layer forms on the diffused aluminization layer, and so that a majority of the zirconium is deposited at the interface of the diffused aluminization layer and the additional aluminization layer.