A method of forming a casting mold pattern that includes a core comprises mounting the core in a fixture such that the core is free of flexing imposed by the fixture. Material is removed from and/or added to a first and/or second mounting surface of the core. The core is then positioned in a die, and wax is conducted into the die to form the pattern. The amount of material removed from the first and/or second mounting surface is such that the core will be within a predetermined range of acceptable positions when the core is in the die with the first mounting surface engaging a first core locating surface of the die end with the second mounting surface engaging a second core locating surface of the die. The range of acceptable positions is determined relative to an ideal position of an ideal core.

A method for producing a flexible mold for casting a ceramic core, the ceramic core used for an investment casting, is presented. The method includes forming a consumable master tool by 3D-printing, producing the flexible mold from the master tool, allowing the flexible mold to cure, and removing the consumable master tool. The master tool includes a negative surface geometry representative of the flexible mold to be produced.

A method for producing a flexible mold for casting a ceramic core, the ceramic core used for an investment casting, is presented. The method includes forming a consumable master tool by 3D-printing, producing the flexible mold from the master tool, allowing the flexible mold to cure, and removing the consumable master tool. The master tool includes a negative surface geometry representative of the flexible mold to be produced.

What are described are the use of a refractory coating composition for production of cores for diecasting, a kit for production of cores for use in diecasting, a method of producing cores for use in diecasting, cores for use in diecasting, and the use of such cores in diecasting, especially of lightweight metals

What are described are the use of a refractory coating composition for production of cores for diecasting, a kit for production of cores for use in diecasting, a method of producing cores for use in diecasting, cores for use in diecasting, and the use of such cores in diecasting, especially of lightweight metals

A core shooting method includes: a. Inserting a first core shooting tool into a core shooting machine; b. Injecting core molding material and a binder into the first core shooting tool; c. Ejecting the first core shooting tool from the core shooting machine; d. Curing of the core in the first core shooting tool; e. Repeating the previous steps with at least one further core shooting tool, wherein the insertion of the further core shooting tool into the core shooting machine is carried out simultaneously with the ejection of the previous core shooting tool from the core shooting machine or simultaneously with the curing of the core in the previous core shooting tool.

A corresponding core shooting tool is further described.

A core shooting method includes: a. Inserting a first core shooting tool into a core shooting machine; b. Injecting core molding material and a binder into the first core shooting tool; c. Ejecting the first core shooting tool from the core shooting machine; d. Curing of the core in the first core shooting tool; e. Repeating the previous steps with at least one further core shooting tool, wherein the insertion of the further core shooting tool into the core shooting machine is carried out simultaneously with the ejection of the previous core shooting tool from the core shooting machine or simultaneously with the curing of the core in the previous core shooting tool.

A corresponding core shooting tool is further described.

A hybrid casting process for structural components uses a re-usable metallic mold rather than a sand mold to produce more consistent cast components. The hybrid casting process uses a metallic mold coupled to a core mold to produce the near net shape of the cast component. Machining operations are performed on the near net shape cast component to produce a final component that meets tolerances and other specifications of the structural component.

A hybrid casting process for structural components uses a re-usable metallic mold rather than a sand mold to produce more consistent cast components. The hybrid casting process uses a metallic mold coupled to a core mold to produce the near net shape of the cast component. Machining operations are performed on the near net shape cast component to produce a final component that meets tolerances and other specifications of the structural component.

A turbine blade including an airfoil portion having a leading edge, a trailing edge, and a pressure surface and a suction surface extending between the leading edge and the trailing edge. The airfoil portion internally forming a cooling passage, which includes first and second cooling passages, and a plurality of outflow passages each having one end which opens to a merging portion formed by connecting an end portion of the first cooling passage on a side of the trailing edge and an end portion of the second cooling passage on the side of the trailing edge, and another end which opens to the trailing edge. The first cooling passage and the second cooling passage are divided by a partition member disposed in the airfoil portion. The cooling passage includes pressure side pin fins in the first cooling passage, and suction side pin fins in the second cooling passage.