This electromagnetic stirring device configured to apply an electromagnetic force which generates a swirling flow around a vertical axis to molten metal in a mold by generating a rotating magnetic field in the mold, which is a quadrangular tubular mold for continuous casting, the electromagnetic stirring device provided with an iron core enclosing the mold at a side of the mold and including two teeth arranged side by side in a circumferential direction of the mold so as to face an outer side surface for each of outer side surfaces of the mold, coils wound around the respective teeth of the iron core, and a power supply device which applies an alternating current to each of the coils with a phase shift by 90° in arrangement order of the coils so as to generate the rotating magnetic field.

This electromagnetic stirring device configured to apply an electromagnetic force which generates a swirling flow around a vertical axis to molten metal in a mold by generating a rotating magnetic field in the mold, which is a quadrangular tubular mold for continuous casting, the electromagnetic stirring device provided with an iron core enclosing the mold at a side of the mold and including two teeth arranged side by side in a circumferential direction of the mold so as to face an outer side surface for each of outer side surfaces of the mold, coils wound around the respective teeth of the iron core, and a power supply device which applies an alternating current to each of the coils with a phase shift by 90° in arrangement order of the coils so as to generate the rotating magnetic field.

An oscillating table comprising an oscillating structure, inserted in a fixed frame adapted to be fixed integrally to the ground, the oscillating structure being adapted to accommodate an ingot mold provided with a crystallizer, defining a casting direction X, and adapted to be guided in an oscillation by elastic means arranged transversally to the casting direction, at least one actuator, adapted to transmit pulses with an alternating orientation, upwards and downwards, to said oscillating structure, so as to cause an oscillation motion thereof, wherein said elastic means comprise pairs or elastic bars having two respective ends fixed to the fixed frame, and having a respective central portion constrained to the oscillating structure, wherein two first elastic bars are arranged parallel to each other, at a first side and at a second side of said fixed frame, respectively, said first side and said second side being parallel to each other and equally spaced apart from said casting direction X, wherein two second elastic bars are arranged parallel to each other, at said first side and said second side respectively, below the first elastic bars, wherein the first elastic bars are inclined by a first acute angle with respect to a horizontal plane, and wherein the second elastic bars are inclined by a second acute angle, different from said first acute angle, with respect to said horizontal plane.

An oscillating table comprising an oscillating structure, inserted in a fixed frame adapted to be fixed integrally to the ground, the oscillating structure being adapted to accommodate an ingot mold provided with a crystallizer, defining a casting direction X, and adapted to be guided in an oscillation by elastic means arranged transversally to the casting direction, at least one actuator, adapted to transmit pulses with an alternating orientation, upwards and downwards, to said oscillating structure, so as to cause an oscillation motion thereof, wherein said elastic means comprise pairs or elastic bars having two respective ends fixed to the fixed frame, and having a respective central portion constrained to the oscillating structure, wherein two first elastic bars are arranged parallel to each other, at a first side and at a second side of said fixed frame, respectively, said first side and said second side being parallel to each other and equally spaced apart from said casting direction X, wherein two second elastic bars are arranged parallel to each other, at said first side and said second side respectively, below the first elastic bars, wherein the first elastic bars are inclined by a first acute angle with respect to a horizontal plane, and wherein the second elastic bars are inclined by a second acute angle, different from said first acute angle, with respect to said horizontal plane.

Methods of billet casting are provided herein. The methods may include the steps of assembling a billet caster with a shroud extending from a tundish to above a mold such that the shroud does not reach molten metal in the mold, delivering molten metal from a ladle into the tundish, delivering molten metal from the tundish through the shroud to the mold, the shroud inhibiting contact between the molten metal and air, casting the molten metal into billets in the mold and cooling the billets below the mold with a coolant spray, and delivering the cooled billet to a runout table to be cut to length.

A method of controlling a continuous casting system for producing slabs from a material, the continuous casting system having a number of molds for forming corresponding strands, the method including receiving a plurality of casting orders, determining for each of the casting orders a set of slabs to be cast, sorting the slabs to be cast of the sets of the casting orders to obtain a sorted base sequence, uniformly partitioning the sorted base sequence into a number of subsequences, adjusting slab widths of the slabs to be cast of the subsequence, wherein, due to the adjustment, the width changes between two slabs to be cast immediately one after the other in the subsequence do not exceed a step value, wherein adjusted subsequences are obtained from the adjusted slab widths, transmitting control data to the continuous casting system for producing the slabs to be cast determined in the adjusted subsequences.

This electromagnetic stirring device configured to apply an electromagnetic force which generates a swirling flow around a vertical axis to molten metal in a mold by generating a rotating magnetic field in the mold, which is a quadrangular tubular mold for continuous casting, the electromagnetic stirring device provided with an iron core enclosing the mold at a side of the mold and including two teeth arranged side by side in a circumferential direction of the mold so as to face an outer side surface for each of outer side surfaces of the mold, coils wound around the respective teeth of the iron core, and a power supply device which applies an alternating current to each of the coils with a phase shift by 90° in arrangement order of the coils so as to generate the rotating magnetic field.

This electromagnetic stirring device configured to apply an electromagnetic force which generates a swirling flow around a vertical axis to molten metal in a mold by generating a rotating magnetic field in the mold, which is a quadrangular tubular mold for continuous casting, the electromagnetic stirring device provided with an iron core enclosing the mold at a side of the mold and including two teeth arranged side by side in a circumferential direction of the mold so as to face an outer side surface for each of outer side surfaces of the mold, coils wound around the respective teeth of the iron core, and a power supply device which applies an alternating current to each of the coils with a phase shift by 90° in arrangement order of the coils so as to generate the rotating magnetic field.

Provided is vertical semi-continuous casting equipment including a guide device disposed under the mold to support the slab drawn from the plate, the guide device being configured to guide the descending of the slab. The guide device includes first and second guide parts including a plurality of guide rolls respectively disposed on both sides of a moving path of the plate under the mold to support the slab moving by the plate and guide the movement of the slab and a braking unit connected to each of the guide rolls to apply braking force to the guide roll that rotates by the movement of the slab. In accordance with an exemplary embodiment, the slab having the length longer than that of the slab in accordance with the related art may stably descend, the shaking of the slab may be prevented, and the casting speed may be stabilized.

Provided is vertical semi-continuous casting equipment including a guide device disposed under the mold to support the slab drawn from the plate, the guide device being configured to guide the descending of the slab. The guide device includes first and second guide parts including a plurality of guide rolls respectively disposed on both sides of a moving path of the plate under the mold to support the slab moving by the plate and guide the movement of the slab and a braking unit connected to each of the guide rolls to apply braking force to the guide roll that rotates by the movement of the slab. In accordance with an exemplary embodiment, the slab having the length longer than that of the slab in accordance with the related art may stably descend, the shaking of the slab may be prevented, and the casting speed may be stabilized.