The present invention relates to a process of forming copper anodes (6) in a casting wheel (I) from the stage in which the copper is in liquid molten state (5) in a dumping chute (3) and is transferred to a ladle (4) until the anode (6) of solid copper is transformed into an anode (6) and is discharged from a mold (2) located in said casting wheel (I) wherein said process prevents the liquid molten copper (5) from being adhered to the edge of the ladle (4) and in the interstice (14) generated between the surfaces of the ejector rod (13) and the passing through bore (12) located on the mold (2) comprising the stages of: pouring the molten liquid copper from a distributing dumping chute (3) towards a ladle (4); (b) connecting the metallic components of the ladle (4) to the ground in order to produce positive charge (17); (c) spraying towards the edge (lip) of the ladle (4) an air jet (19) with dry dusting release agent (20) which is expelled by a nozzle (21) charging the particles of said dry dusting (20) with high voltage and negative charge the particles of said dry dusting release agent (20) with high voltage and negative charge (18); (f) pouring the molten liquid copper (5) from the ladle (4) towards the cavity (II) of a mold (2) of anodes; (g) waiting until the copper gets cold in order to form the anode (6) by means of the turn of the casting wheel (I); (h) driving the ejector rod (13) to expel the anode (6) from the cavity (II) of the mold (2); and (i) removing the anode (6) from the mold (2) by means of cranes. The nozzle (21) is moved over the ladle zone (4) and mold zone (2) by means of a robotic arm (22) which is mounted on a cart (24) suspended above the casting wheel (I).(18); (b) connecting the metallic components of the mold (2) to the ground in order to produce a positive charge (17); (e) spraying towards the cavity (II) of the mold (2) and towards the location zone of the ejector rod (13) dry dusting release agent (20) through an air jet (19) which passes through a nozzle (21) which charges the particles of said dry dusting release agent (20) with high voltage and negative charge (18); (f) pouring the molten liquid copper (5) from the ladle (4) towards the cavity (II) of a mold (2) of anodes; (g) waiting until the copper gets cold in order to form the anode (6) by means of the turn of

The present invention relates to a process of forming copper anodes (6) in a casting wheel (I) from the stage in which the copper is in liquid molten state (5) in a dumping chute (3) and is transferred to a ladle (4) until the anode (6) of solid copper is transformed into an anode (6) and is discharged from a mold (2) located in said casting wheel (I) wherein said process prevents the liquid molten copper (5) from being adhered to the edge of the ladle (4) and in the interstice (14) generated between the surfaces of the ejector rod (13) and the passing through bore (12) located on the mold (2) comprising the stages of: pouring the molten liquid copper from a distributing dumping chute (3) towards a ladle (4); (b) connecting the metallic components of the ladle (4) to the ground in order to produce positive charge (17); (c) spraying towards the edge (lip) of the ladle (4) an air jet (19) with dry dusting release agent (20) which is expelled by a nozzle (21) charging the particles of said dry dusting (20) with high voltage and negative charge the particles of said dry dusting release agent (20) with high voltage and negative charge (18); (f) pouring the molten liquid copper (5) from the ladle (4) towards the cavity (II) of a mold (2) of anodes; (g) waiting until the copper gets cold in order to form the anode (6) by means of the turn of the casting wheel (I); (h) driving the ejector rod (13) to expel the anode (6) from the cavity (II) of the mold (2); and (i) removing the anode (6) from the mold (2) by means of cranes. The nozzle (21) is moved over the ladle zone (4) and mold zone (2) by means of a robotic arm (22) which is mounted on a cart (24) suspended above the casting wheel (I).(18); (b) connecting the metallic components of the mold (2) to the ground in order to produce a positive charge (17); (e) spraying towards the cavity (II) of the mold (2) and towards the location zone of the ejector rod (13) dry dusting release agent (20) through an air jet (19) which passes through a nozzle (21) which charges the particles of said dry dusting release agent (20) with high voltage and negative charge (18); (f) pouring the molten liquid copper (5) from the ladle (4) towards the cavity (II) of a mold (2) of anodes; (g) waiting until the copper gets cold in order to form the anode (6) by means of the turn of

An investment mold slurry curtain apparatus includes a slurry curtain of a slurry fluid, the slurry curtain having a length and a thickness, the length substantially greater than the thickness. The apparatus also includes an outlet configured to dispense the slurry fluid and form the slurry curtain. The investment mold slurry curtain apparatus may include and be described as an investment mold slurry coating apparatus including a conduit configured to receive a flow of a slurry fluid and an outlet operatively coupled to the conduit, the outlet configured to dispense the flow of the slurry as a curtain of the slurry.

An investment mold slurry curtain apparatus includes a slurry curtain of a slurry fluid, the slurry curtain having a length and a thickness, the length substantially greater than the thickness. The apparatus also includes an outlet configured to dispense the slurry fluid and form the slurry curtain. The investment mold slurry curtain apparatus may include and be described as an investment mold slurry coating apparatus including a conduit configured to receive a flow of a slurry fluid and an outlet operatively coupled to the conduit, the outlet configured to dispense the flow of the slurry as a curtain of the slurry.

The present invention relates to a process of forming copper anodes (6) in a casting wheel (I) from the stage in which the copper is in liquid molten state (5) in a dumping chute (3) and is transferred to a ladle (4) until the anode (6) of solid copper is transformed into an anode (6) and is discharged from a mould (2) located in said casting wheel (I) wherein said process prevents the liquid molten copper (5) from being adhered to the edge of the ladle (4) and in the interstice (14) generated between the surfaces of the ejector rod (13) and the passing through bore (12) located on the mould (2) comprising the stages of: pouring the molten liquid copper from a distributing dumping chute (3) towards a ladle (4); (b) connecting the metallic components of the ladle (4) to the ground in order to produce positive charge (17); (c) spraying towards the edge (lip) of the ladle (4) an air jet (19) with dry dusting release agent (20) which is expelled by a nozzle (21) charging the particles of said dry dusting (20) with high voltage and negative charge the particles of said dry dusting release agent (20) with high voltage and negative charge (18); (f) pouring the molten liquid copper (5) from the ladle (4) towards the cavity (II) of a mould (2) of anodes; (g) waiting until the copper gets cold in order to form the anode (6) by means of the turn of the casting wheel (I); (h) driving the ejector rod (13) to expel the anode (6) from the cavity (II) of the mould (2); and (i) removing the anode (6) from the mould (2) by means of cranes. The nozzle (21) is moved over the ladle zone (4) and mould zone (2) by means of a robotic arm (22) which is mounted on a cart (24) suspended above the casting wheel (I).(18); (b) connecting the metallic components of the mould (2) to the ground in order to produce a positive charge (17); (e) spraying towards the cavity (II) of the mould (2) and towards the location zone of the ejector rod (13) dry dusting release agent (20) through an air jet (19) which passes through a nozzle (21) which charges the particles of said dry dusting release agent (20) with high voltage and negative charge (18); (f) pouring the molten liquid copper (5) from the ladle (4) towards the cavity (II) of a mould (2) of anodes; (g) waiting until the copper gets cold in order to form the anode (6) by means of th

The present invention relates to a process of forming copper anodes (6) in a casting wheel (I) from the stage in which the copper is in liquid molten state (5) in a dumping chute (3) and is transferred to a ladle (4) until the anode (6) of solid copper is transformed into an anode (6) and is discharged from a mould (2) located in said casting wheel (I) wherein said process prevents the liquid molten copper (5) from being adhered to the edge of the ladle (4) and in the interstice (14) generated between the surfaces of the ejector rod (13) and the passing through bore (12) located on the mould (2) comprising the stages of: pouring the molten liquid copper from a distributing dumping chute (3) towards a ladle (4); (b) connecting the metallic components of the ladle (4) to the ground in order to produce positive charge (17); (c) spraying towards the edge (lip) of the ladle (4) an air jet (19) with dry dusting release agent (20) which is expelled by a nozzle (21) charging the particles of said dry dusting (20) with high voltage and negative charge the particles of said dry dusting release agent (20) with high voltage and negative charge (18); (f) pouring the molten liquid copper (5) from the ladle (4) towards the cavity (II) of a mould (2) of anodes; (g) waiting until the copper gets cold in order to form the anode (6) by means of the turn of the casting wheel (I); (h) driving the ejector rod (13) to expel the anode (6) from the cavity (II) of the mould (2); and (i) removing the anode (6) from the mould (2) by means of cranes. The nozzle (21) is moved over the ladle zone (4) and mould zone (2) by means of a robotic arm (22) which is mounted on a cart (24) suspended above the casting wheel (I).(18); (b) connecting the metallic components of the mould (2) to the ground in order to produce a positive charge (17); (e) spraying towards the cavity (II) of the mould (2) and towards the location zone of the ejector rod (13) dry dusting release agent (20) through an air jet (19) which passes through a nozzle (21) which charges the particles of said dry dusting release agent (20) with high voltage and negative charge (18); (f) pouring the molten liquid copper (5) from the ladle (4) towards the cavity (II) of a mould (2) of anodes; (g) waiting until the copper gets cold in order to form the anode (6) by means of th

An oil-based release agent of the present invention contains a petroleum-based hydrocarbon solvent (a) and a high temperature adhesive (b), is applied to a metal die used for die casting or casting, has high adhesion and high lubricity even with respect to a metal die at a high temperature particularly of 300 C. or higher, and can prevent seizure. In addition, the present invention provides a method for applying the oil-based release agent of the present invention by controlling an adhesion amount thereof by micronization and speed-control thereof with respect to a metal die at a high temperature, and an electrostatic application method.

A protection method, protects at least one hollow internal area of a turbine engine part made of a superalloy from oxidation and/or corrosion, wherein the at least one hollow inner area has been formed by means of at least one core made of a ceramic material limited by an external surface that surrounds it. Before bringing the superalloy around the core made of a ceramic material, the external surface is coated with a material that includes a nanometric layer of hafnium (Hf), and/or a micrometric layer of platinum (Pt), or mixture at least of hafnium and platinum.