Method for manufacturing a valve body having one or more corrosion-resistant internal surfaces

The invention claimed is: 1. A method of manufacturing a valve body having one or more corrosion-resistant internal surfaces, the method comprising: performing a casting process, comprising pouring a first material into a mold box, to produce a valve body casting made of the first material; and during the casting process, forming a layer of a carbon fiber reinforced material on one or more internal surfaces of the valve body casting, the carbon fiber reinforced material having a higher corrosion resistance than the first material, wherein forming the layer comprises: applying, with an additive manufacturing technique, the carbon fiber reinforced material to one or more external surfaces of a core; and inserting the core into the mold box, wherein a portion of the first material binds to the carbon fiber reinforced material on the one or more external surfaces of the core while the first material is poured into the mold box. 2. The method of manufacturing according to claim 1 , wherein pouring the first material into the mold box comprises pouring carbon steel into the mold box. 3. The method of manufacturing according to claim 1 , wherein performing the casting process comprises performing a sand casting process. 4. The method of manufacturing according to claim 3 , wherein the core comprises a sand core. 5. The method of manufacturing according to claim 1 , wherein the additive manufacturing technique comprises 3D printing. 6. A method of manufacturing a valve body having a corrosion-resistant interior, the method comprising: providing a molding box comprising a first part and a second part, the first part comprising a first pattern defining a first portion of the valve body, and the second part comprising a second pattern defining a second portion of the valve body; packing each of the first and second parts of the molding box with sand; removing the first pattern from the packed first part of the molding box, thereby forming a first cavity in the first part of the molding box; removing the second pattern from the packed second part of the molding box, thereby forming a second cavity in the second part of the molding box; providing a core comprising one or more external surfaces defining one or more internal surfaces of the valve body; applying, by an additive manufacturing technique, a carbon fiber reinforced material to the one or more external surfaces of the core; disposing the core in one of the first and second cavities; coupling the first part of the molding box to the second part of the molding box such that the core is seated in each of the first and second cavities, thereby forming a mold cavity surrounding the core; and filling the mold cavity with a molten metal material that at least partially binds to the carbon fiber reinforced material on the one or more external surfaces of the core, thereby forming a casted valve body having a layer of the carbon fiber reinforced material on the one or more internal surfaces. 7. The method of manufacturing according to claim 6 , wherein filling the mold cavity with the molten metal material comprises filling the mold cavity with carbon steel. 8. The method of manufacturing according to claim 6 , wherein the core comprises a sand core. 9. The method of manufacturing according to claim 6 , wherein the additive manufacturing technique comprises 3D printing.