The invention relates to a refractory dry vibratable mix which sets at room temperature when water is added, for use in metallurgical vessels and comprising a refractory main component, a binder and a retarder.

A unitary refractory ring having a sidewall surrounding and spaced from a center axis, and one or more lifting lugs distributed around the center axis. The lifting lugs extend from an inner face of the sidewall towards the center axis, and are located between lower and upper axial faces of the sidewall. Each lifting lug has a lower lug face extending radially towards the center axis from the inner face of the sidewall, and a backing structure extending upwards along an axial direction from the lower lug face towards the upper axial face of the sidewall. An assembly of refractory rings, and methods for making and assembling refractory rings are also provided.

A unitary refractory ring having a sidewall surrounding and spaced from a center axis, and one or more lifting lugs distributed around the center axis. The lifting lugs extend from an inner face of the sidewall towards the center axis, and are located between lower and upper axial faces of the sidewall. Each lifting lug has a lower lug face extending radially towards the center axis from the inner face of the sidewall, and a backing structure extending upwards along an axial direction from the lower lug face towards the upper axial face of the sidewall. An assembly of refractory rings, and methods for making and assembling refractory rings are also provided.

A unitary refractory ring having a sidewall surrounding and spaced from a center axis, and one or more lifting lugs distributed around the center axis. The lifting lugs extend from an inner face of the sidewall towards the center axis, and are located between lower and upper axial faces of the sidewall. Each lifting lug has a lower lug face extending radially towards the center axis from the inner face of the sidewall, and a backing structure extending upwards along an axial direction from the lower lug face towards the upper axial face of the sidewall. An assembly of refractory rings, and methods for making and assembling refractory rings are also provided.

A unitary refractory ring having a sidewall surrounding and spaced from a center axis, and one or more lifting lugs distributed around the center axis. The lifting lugs extend from an inner face of the sidewall towards the center axis, and are located between lower and upper axial faces of the sidewall. Each lifting lug has a lower lug face extending radially towards the center axis from the inner face of the sidewall, and a backing structure extending upwards along an axial direction from the lower lug face towards the upper axial face of the sidewall. An assembly of refractory rings, and methods for making and assembling refractory rings are also provided.

A liquid phenolic resin composition for use as a binder for a refractory article, the phenolic resin composition comprising a phenol formaldehyde resin, wherein the phenolic resin composition has a reduced vaporization percentage of phenolic compounds. The phenolic resin composition is used in refractory compositions comprising at least 50 wt. % of one or more refractory aggregate(s), based on a total weight of the refractory composition. There is also disclosed a refractory article, such as a brick, formed into a shape comprising said refractory composition and heating until the phenolic resin composition is at least 20% cured and having a green strength after curing at 170° C. for 5 hours sufficient for handling the solid without falling apart. Ladles for transporting and pouring molten metals can be made with an inner liner formed by stacking at least two bricks along the bottom and sides of a ladle shaped metal outer liner, and then heating the stacked bricks to a temperature sufficient to carbonize the resin thereby forming the inner liner of the ladle.

A liquid phenolic resin composition for use as a binder for a refractory article, the phenolic resin composition comprising a phenol formaldehyde resin, wherein the phenolic resin composition has a reduced vaporization percentage of phenolic compounds. The phenolic resin composition is used in refractory compositions comprising at least 50 wt. % of one or more refractory aggregate(s), based on a total weight of the refractory composition. There is also disclosed a refractory article, such as a brick, formed into a shape comprising said refractory composition and heating until the phenolic resin composition is at least 20% cured and having a green strength after curing at 170° C. for 5 hours sufficient for handling the solid without falling apart. Ladles for transporting and pouring molten metals can be made with an inner liner formed by stacking at least two bricks along the bottom and sides of a ladle shaped metal outer liner, and then heating the stacked bricks to a temperature sufficient to carbonize the resin thereby forming the inner liner of the ladle.

The invention relates to systems for transferring molten metal from one structure to another. Aspects of the invention include a transfer chamber constructed inside of or next to a vessel used to retain molten metal. The transfer chamber is in fluid communication with the vessel so molten metal from the vessel can enter the transfer chamber. A powered device, which may be inside of the transfer chamber, moves molten metal upward and out of the transfer chamber and preferably into a structure outside of the vessel, such as another vessel or a launder.

The invention relates to systems for transferring molten metal from one structure to another. Aspects of the invention include a transfer chamber constructed inside of or next to a vessel used to retain molten metal. The transfer chamber is in fluid communication with the vessel so molten metal from the vessel can enter the transfer chamber. A powered device, which may be inside of the transfer chamber, moves molten metal upward and out of the transfer chamber and preferably into a structure outside of the vessel, such as another vessel or a launder.

A device and a process for the continuous application of a refractory slurry to a surface incorporate a batch reactor (10) for the controlled mixing of the slurry, a product vessel (60) in communication with the batch reactor (10) to contain the mixed slurry, and a variable-rate spraying applicator or nozzle in communication with the product vessel and with an air supply. A controller (100) controls input to, output from, and the operation of, the batch mixer (10), and monitors batch production. The controller (100) monitors the amount of slurry contained in the product vessel (60). If the level of slurry in the product hopper is such that the product hopper cannot accommodate an additional batch of slurry, the controller interrupts batch production and resumes production when the product hopper can accept the contents of the batch reactor (10).