Method for inhibiting alkali metal corrosion of nickel-containing alloys
First Claim
1. In a closed apparatus consisting essentially of nickel-containing alloy components exposed to a molten alkali metal corrosive environment, the method of inhibiting corrosion by said molten alkali metal comprising dissolving in said molten alkali metal a metal selected from the group consisting of aluminum, silicon, and manganese in an amount sufficient to cause the formation of a corrosion-resistant coating on said exposed alloy components.
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Accused Products
Abstract
Structural components of nickel-containing alloys within molten alkali metal systems are protected against corrosion during the course of service by dissolving therein sufficient aluminum, silicon, or manganese to cause the formation and maintenance of a corrosion-resistant intermetallic reaction layer created by the interaction of the molten metal, selected metal, and alloy.
8 Citations
13 Claims
- 1. In a closed apparatus consisting essentially of nickel-containing alloy components exposed to a molten alkali metal corrosive environment, the method of inhibiting corrosion by said molten alkali metal comprising dissolving in said molten alkali metal a metal selected from the group consisting of aluminum, silicon, and manganese in an amount sufficient to cause the formation of a corrosion-resistant coating on said exposed alloy components.
- 5. In an operating apparatus consisting essentially of nickel-containing alloy components the process of inhibiting corrosion by a molten alkali metal in contact with the interior of said apparatus comprising initially dissolving within said molten metal a minor amount of a metal selected from the group consisting of aluminum, silicon, and manganese, and thereafter maintaining said selected metal at a concentration sufficient to limit corrosion of said components by said molten metal.
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8. In a closed operating system consisting essentially of nickel-containing alloy components exposed to a molten alkali metal, the process of inhibiting corrosion of said components comprising the formation and maintenance of an intermetallic reaction layer of nickel and a metal selected from the group consisting of aluminum, silicon, and manganese on said components, said layer being formed by dissolving a minor amount of the selected metal within a predominate amount of the molten metal and maintaining the concentration of said selected metal within said molten metal throughout the operating cycle of said system.
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9. In a closed apparatus functioning within its operating cycle, said closed apparatus defining at least one interior compartment consisting essentially of a nickel-containing alloy used for confining therein molten lithium under corrosive conditions, the process of inhibiting corrosion in said compartment by contacting and maintaining said contact during the operating cycle, the compartment with molten lithium having dissolved therein a metal selected from the group consisting of aluminum, silicon, and manganese for sufficient time and temperature to cause an interreaction between said nickel-containing alloy and metal to form a corrosion-resistant intermetallic reaction layer on the compartment surface exposed to lithium.
Specification