The invention relates to a cooling system for a mould, in particular a mould for vertical continuous casting, comprising at least one cooling unit (11), wherein the mould has a running surface (10) with an inner side and an outer side and the inner side of the running surface (10a) limits a continuous casting during operation, wherein the cooling unit (11) is designed to be moveably arranged on the mould and the cooling unit (11) has an adjusting element (13), wherein the cooling unit (11) is arranged on the mould in such a way that a gap (12) is formed between the cooling unit (11) and the outer side of the running surface (10) and the width of the gap (12) can be adjusted by the adjusting element (13).

A method for casting longitudinal cast products including casting longitudinal cast products in a semi-continuous manner using a DC casting apparatus having a mold, wherein the mold has top and bottom openings and partially solidifies molten metal that enters into the mold via the top opening and outputs the cast product via the bottom opening, recording a thermal image of the cast product output via the bottom opening, determining at least three non-overlapping temperature ranges comprising a first, second and third, determining a peak temperature in the thermal image; comparing the peak temperature with the at least three temperature ranges; and performing operations depending on where the peak temperature falls within the at least three temperature ranges.

A method for casting longitudinal cast products including casting longitudinal cast products in a semi-continuous manner using a DC casting apparatus having a mold, wherein the mold has top and bottom openings and partially solidifies molten metal that enters into the mold via the top opening and outputs the cast product via the bottom opening, recording a thermal image of the cast product output via the bottom opening, determining at least three non-overlapping temperature ranges comprising a first, second and third, determining a peak temperature in the thermal image; comparing the peak temperature with the at least three temperature ranges; and performing operations depending on where the peak temperature falls within the at least three temperature ranges.

A mould plate includes a casting side and a rear side facing away from the casting side and having a cooling channel configured to open towards the rear side and having a cooling face opposite the casting side. An insert is arranged in the cooling channel to form a cooling gap between an inner face of the insert and the cooling face. A fastening bolt connects the insert to a fastening point in the cooling face, wherein the cooling gap extends, viewed from the fastening point towards the casting side, to an area below the fastening point.

A mould plate includes a casting side and a rear side facing away from the casting side and having a cooling channel configured to open towards the rear side and having a cooling face opposite the casting side. An insert is arranged in the cooling channel to form a cooling gap between an inner face of the insert and the cooling face. A fastening bolt connects the insert to a fastening point in the cooling face, wherein the cooling gap extends, viewed from the fastening point towards the casting side, to an area below the fastening point.

Provided herein is a system, apparatus, and method for continuous casting of metal, and more particularly, to a mechanism for controlling the shape of a direct chill casting mold to dynamically control a profile of an ingot cast from the mold during the casting process. Embodiments may provide an apparatus for casting material including: first and second opposing side walls; first and second end walls extending between the first and second side walls, where the first and second opposing side walls and the first and second opposing end walls form a generally rectangular shaped mold cavity. At least one of the first and second opposing side walls may include two or more contact regions, where each of the two or more contact regions may be configured to be displaced relative to a straight line along the side wall.

Provided herein is a system, apparatus, and method for continuous casting of metal, and more particularly, to a mechanism for controlling the shape of a direct chill casting mold to dynamically control a profile of an ingot cast from the mold during the casting process. Embodiments may provide an apparatus for casting material including: first and second opposing side walls; first and second end walls extending between the first and second side walls, where the first and second opposing side walls and the first and second opposing end walls form a generally rectangular shaped mold cavity. At least one of the first and second opposing side walls may include two or more contact regions, where each of the two or more contact regions may be configured to be displaced relative to a straight line along the side wall.

A crystallizer copper plate and a continuous casting crystallizer. The crystallizer copper plate is provided with a metal continuous casting die surface and a rear-side cooling fixed surface. The fixed surface is provided with fixing screw holes in a vertical column connected to a fixed water tank or an adapter backplate and mesas forming the surrounding of the screw holes. Reinforced bars are connected between multiple mesas of each column. Cooling channels lower than the fixed surface are provided between any two adjacent two columns of fixing screw holes. Flow-diverting cooling bars are provided at the middle of meniscus regions of the cooling channels. Either the top end or the bottom end of the flow-diverting cooling bar is a cone used for altering the direction of movement of a cooling medium.

Disclosed is a crystallizer for continuous casting, which relates to the field of horizontally continuous casting of copper/copper alloy bars, comprising: a graphite sleeve provided with a plurality of drawing holes, and a cooling jacket provided therein with a coolant cavity; the graphite sleeve is plate-shaped; the cooling jacket is plate-shaped and provided with at least two; the cooling jacket is attached to two sides of the plate surfaces of the graphite sleeve to cool the graphite sleeve. The present disclosure may simultaneously draw out five and more copper bars, which greatly boots the production efficiency.

Disclosed is a crystallizer for continuous casting, which relates to the field of horizontally continuous casting of copper/copper alloy bars, comprising: a graphite sleeve provided with a plurality of drawing holes, and a cooling jacket provided therein with a coolant cavity; the graphite sleeve is plate-shaped; the cooling jacket is plate-shaped and provided with at least two; the cooling jacket is attached to two sides of the plate surfaces of the graphite sleeve to cool the graphite sleeve. The present disclosure may simultaneously draw out five and more copper bars, which greatly boots the production efficiency.