A casting core assembly includes a metallic core, a ceramic core having a compartment in which the portion of the metallic core is received, and a ceramic coating at least partially covering the metallic core and the ceramic core.

Transportation methods, systems and covers for transporting hot ingots or sows are disclosed. The transportation system includes a base, at least one stack of ingots, and at least one cover positioned over the at least one stack of ingots. The transportation system may also include a securement assembly configured to secure the at least one stack of ingots and at least one cover to the base. A transportation method using the transportation system to deliver hot ingots to a processing facility is also disclosed.

A casting apparatus includes: a mold including a first mold segment and a second mold segment; and a transfer device that is configured to transfer a core to the first mold segment and place the core in the first mold segment, and to receive and transfer a casting. The transfer device includes a support part, a robot arm, a core grasping mechanism being provided on the support part, and a casting receiving part being provided on the support part. The transfer device is configured such that the robot arm moves the core grasping mechanism so as to place the core in the first mold segment, and moves the casting receiving part so as to receive the casting by the casting receiving part.

A casting apparatus includes: a mold including a first mold segment and a second mold segment; and a transfer device that is configured to transfer a core to the first mold segment and place the core in the first mold segment, and to receive and transfer a casting. The transfer device includes a support part, a robot arm, a core grasping mechanism being provided on the support part, and a casting receiving part being provided on the support part. The transfer device is configured such that the robot arm moves the core grasping mechanism so as to place the core in the first mold segment, and moves the casting receiving part so as to receive the casting by the casting receiving part.

Certain exemplary embodiments can provide a system, machine, device, manufacture, and/or composition of matter configured for and/or resulting from, and/or a method for, activities that can comprise and/or relate to, investment casting a product in a mold, the product comprising at least one wall, the mold comprising a core, an inner primary shell, and an outer secondary shell.

A foundry mixture for making molds used for molding cast metal parts includes foundry sand, a non-aqueous binder, and a cleaning agent that includes calcium oxide. Residual foundry mixture remaining on the cast part after removal from the mold is removed by electrolytic cleaning of the cast part.

A foundry mixture for making molds used for molding cast metal parts includes foundry sand, a non-aqueous binder, and a cleaning agent that includes calcium oxide. Residual foundry mixture remaining on the cast part after removal from the mold is removed by electrolytic cleaning of the cast part.

The invention relates to a device and method for improving the quality of automated machine-based casting methods by identification of the cast parts by pattern recognition and structure recognition, said method having the following features: Once the desired casting moulds (12) have been filled and monitored by means of sensors and cameras, and once the casting mould has been broken open, each finished cast part is identified by pattern recognition and pattern tracking, any flashing is removed, and the cast parts are fed to a jet cleaning process.

The invention relates to a device and method for improving the quality of automated machine-based casting methods by identification of the cast parts by pattern recognition and structure recognition, said method having the following features: Once the desired casting moulds (12) have been filled and monitored by means of sensors and cameras, and once the casting mould has been broken open, each finished cast part is identified by pattern recognition and pattern tracking, any flashing is removed, and the cast parts are fed to a jet cleaning process.

An object is to provide a casting device that is capable of maintaining depressurization in a cavity. A casting device (1) is configured to move an extrusion pin (3), slidably inserted in an insertion hole (29) formed in a mold (2), into a cavity (20) in the mold to release a casted product. The casting device (1) includes a depressurized space creator (4) configured to create a depressurized space (40) on a reverse side of a cavity surface to define the cavity (20). The depressurized space creator (4) covers an opening of the insertion hole (29) to maintain depressurization in the cavity (20).