Dissolvable thread sealants are useful for forming a pressure-tight seal between dissolvable threaded components, particularly in downhole tools. A film of the dissolvable thread sealant can be formed on the threads of dissolvable threaded components. As the dissolvable threaded components are exposed to fluid under the appropriate conditions and begin to dissolve, the thread sealant becomes exposed to the fluid and, likewise, dissolves. Embodiments of the dissolvable thread sealants are made using polyvinyl alcohol (PVA).

Dissolvable thread sealants are useful for forming a pressure-tight seal between dissolvable threaded components, particularly in downhole tools. A film of the dissolvable thread sealant can be formed on the threads of dissolvable threaded components. As the dissolvable threaded components are exposed to fluid under the appropriate conditions and begin to dissolve, the thread sealant becomes exposed to the fluid and, likewise, dissolves. Embodiments of the dissolvable thread sealants are made using polyvinyl alcohol (PVA).

The present disclosure provides a fast-dissolved high-plasticity soluble magnesium alloy material and a preparation method thereof, including 1) making preparations, 2) smelting, 3) refining, 4) casting, 5) homogenizing treatment, 6) hot extrusion and 7) ageing treatment. The soluble magnesium material produced by the present disclosure is high in mechanical strength, good in plasticity and capable of being fast dissolved in a salt solution, and exhibits very excellent tensile strength and plastic extension strength and obvious percentage elongation after fracture during property testing, proving that the soluble magnesium of the present disclosure has good plasticity.

The present disclosure provides a fast-dissolved high-plasticity soluble magnesium alloy material and a preparation method thereof, including 1) making preparations, 2) smelting, 3) refining, 4) casting, 5) homogenizing treatment, 6) hot extrusion and 7) ageing treatment. The soluble magnesium material produced by the present disclosure is high in mechanical strength, good in plasticity and capable of being fast dissolved in a salt solution, and exhibits very excellent tensile strength and plastic extension strength and obvious percentage elongation after fracture during property testing, proving that the soluble magnesium of the present disclosure has good plasticity.

An alloy member includes a substrate formed of an alloy containing Mg and Li, a first layer which is disposed on the substrate and contains an inorganic fluoride, and a second layer which is disposed on the first layer and includes a cured product of a resin, the substrate, the first layer, and the second layer being stacked together, in which a surface of the first layer on the side opposite the substrate has an irregular structure.

An alloy member includes a substrate formed of an alloy containing Mg and Li, a first layer which is disposed on the substrate and contains an inorganic fluoride, and a second layer which is disposed on the first layer and includes a cured product of a resin, the substrate, the first layer, and the second layer being stacked together, in which a surface of the first layer on the side opposite the substrate has an irregular structure.

A magnesium alloy matrix having an alloy composition including aluminum at a concentration of between 0.5 wt. % to 2.5 wt. %, manganese at a concentration of between 0.3 wt. % to 1.0 wt. %, the concentration of manganese is greater than or equal to a value of [Mn] determined by a linear function [Mn]=x[Al], where x is at least 0.6 when [Al]=0.5 and is at least 0.14 when [Al]=2.5, zinc at a concentration of between 0 wt. % to 3 wt. %, tin at a concentration of between 0 wt. % to 3 wt. %, calcium at a concentration of between 0 wt. % to 0.5%, rare earth metals at a concentration of between 0 wt. % to 5 wt. %, and a balance of the alloy composition being magnesium.

A magnesium alloy matrix having an alloy composition including aluminum at a concentration of between 0.5 wt. % to 2.5 wt. %, manganese at a concentration of between 0.3 wt. % to 1.0 wt. %, the concentration of manganese is greater than or equal to a value of [Mn] determined by a linear function [Mn]=x[Al], where x is at least 0.6 when [Al]=0.5 and is at least 0.14 when [Al]=2.5, zinc at a concentration of between 0 wt. % to 3 wt. %, tin at a concentration of between 0 wt. % to 3 wt. %, calcium at a concentration of between 0 wt. % to 0.5%, rare earth metals at a concentration of between 0 wt. % to 5 wt. %, and a balance of the alloy composition being magnesium.

The invention relates to a method for increasing a corrosion resistance of a component formed with a magnesium-based alloy against galvanic corrosion, in particular micro-galvanic corrosion. According to the invention, an increase in a corrosion resistance against galvanic corrosion is achieved in a simple manner in that a surface layer of the component having a predefined thickness, which surface layer is formed with the magnesium-based alloy, is heated in order to configure the surface layer with a homogenized solid solution phase, whereupon the surface layer is cooled such that the surface layer is formed with a supersaturated solid solution phase. The invention furthermore relates to a corrosion-resistant component which is obtainable by a method of this type.

The invention relates to a method for increasing a corrosion resistance of a component formed with a magnesium-based alloy against galvanic corrosion, in particular micro-galvanic corrosion. According to the invention, an increase in a corrosion resistance against galvanic corrosion is achieved in a simple manner in that a surface layer of the component having a predefined thickness, which surface layer is formed with the magnesium-based alloy, is heated in order to configure the surface layer with a homogenized solid solution phase, whereupon the surface layer is cooled such that the surface layer is formed with a supersaturated solid solution phase. The invention furthermore relates to a corrosion-resistant component which is obtainable by a method of this type.