A method and an equipment permitting to optimally handle and support a roll made of at least an inert material and transfer the torque from a bearing to a roll or the other way around without damaging them, the roll and bearing being immersed in molten metal.

An installation for coating a longitudinally-running, strip-shaped metal product includes a tank containing a coating in liquid form, into which the metal product is dipped, a wiping system disposed at a vertical outlet of the product from the tank and intended to wipe each face of the strip-shaped product, at least one ancillary device disposed at an outlet of the product from the wiping system in a manner facing one of the faces of the product, and a holding device holding the wiping system and the ancillary device. The holding device includes a securing unit forming a common lateral support for the wiping system and each ancillary device by using multiple securing points.

Disclosed is a device for removing mattes from the surface of a liquid metal bath inside a duct of a line for continuously coating a metal strip having first and second faces, the first face being intended to come into contact with a bottom roller, comprising a compartment via which the liquid metal inside the duct is replenished by being drawn off by a pump to which the compartment is connected, characterized in that the compartment is capable of being removed by disassembly means without the metal strip needing to be cut.

Equipment for the continuous hot dip-coating of a metal strip 9 including an annealing furnace, a tank 2 containing a liquid metal bath 3, a snout connecting the annealing furnace and tank 2, through which the metal strip 9 runs in a protective atmosphere and the lower part of the snout, the sabot 5, is at least partly immersed in the liquid metal bath 3 in order to define with the surface of the bath, and inside this snout, a liquid seal 6, an overflow 7 not connected to the snout, the overflow 7 including at least one tray 8, placed in the vicinity of the strip 9 when entering the liquid metal bath 3 and encompassed by liquid seal 6.

A system and method for affecting the crossbow in a metal sheet in continuous coating process. The system comprises strip distance sensors for determining distances to the metal sheet. A controller is configured to adjust the position of the correcting roll, based on the strip distances, to affect the crossbow in the sheet to help control the thickness of the coating on the sheet. The system may comprise a crossbow model to help determine the new correcting roll position. The distances determined by the strip distance sensors may be also be used to adjust the position of the air knives.

Provided is a snout control system comprising: a snout apparatus in which one end of a steel sheet is immersed in a plating bath, containing a hot-dip galvanizing solution for plating the steel sheet, to introduce the steel sheet into the plating bath during the production process of a hot-dip galvanized steel sheet; a first sensor which is formed on a portion of the plating bath and can measure the first water level of the molten steel of the hot-dip galvanizing solution; and a processor which controls the snout apparatus and the first sensor.

A method including manufacturing a trough. The trough includes connected walls configured to hold a molten galvanization material within the trough. The trough is further manufactured to include a first end including a first gate system. The trough is further manufactured to include a second end, opposing the first end, including a second gate system. The trough is further manufactured to include a roller connected, inside the trough, to opposing inside walls of the connected walls. The trough is further manufactured to include a sump disposed within the trough. The trough is further manufactured to include a side braces connected to an outside wall of the connected walls. The side braces extend outwardly from the outside wall. The trough is further manufactured to include an inlet connected to the sump, the inlet disposed at a perpendicular angle relative to the outside wall and further disposed between the side braces.

Aspects of the disclosure include a thickness control manifold for molten lithium dip coating. An exemplary thickness control manifold includes a plurality of rollers positioned to guide a current collector from a feed roller to a molten lithium bath and to provide a vertical current collector pull from the molten lithium bath. A gas knife is positioned after the vertical current collector pull and against a side of the current collector. The manifold includes a cold gas tip having a first gas port and a first gas channel that is positioned to eject a cooled fluid to the side of the current collector and a hot gas tip having a second gas port and a second gas channel that is positioned to eject a heated fluid to the side of the current collector. The hot gas tip is between the cold gas tip and the molten lithium bath.

A coated stainless-steel substrate including a coating including nanographites and a binder being sodium silicate, wherein the stainless-steel substrate has the following composition in weight percent: C1.2%, Cr11.0%, Ni8.0% and on a purely optional basis, one or more elements such as Nb6.0%, B1.0%, Ti3.0%, Cu5.0%, Co3.0%, N1.0%, V3.0%, Si4.0%, Mn5.0%, P0.5%, S0.5%, Mo6.0%, Ce1.0%, the remainder of the composition being made of iron and inevitable impurities resulting from the elaboration. A method for the manufacture of this coated stainless-steel substrate is also provided.

Systems and methods for galvanizing objects are described. In some aspects, systems and methods incorporate a trough configured to hold a molten galvanization material. The trough can include connected walls configured to hold a molten galvanization material within the trough. In some aspects, the trough further includes a first end comprising a first gate system. The trough can further include a second end, opposing the first end, comprising a second gate system. The trough further includes a roller connected, inside the trough, to opposing inside walls of the plurality of connected walls. The trough further includes a sump disposed within the trough. The trough further includes an inlet connected to the sump.