GB2032577A - Continuous costing rollers - Google Patents

Abstract

In a previously known construction of continuous casting roller having a corrosion and wear resistant outer layer, the outer layers can crack in use, allowing corrosive agents to penetrate to the basic material of the roller, resulting in erosion of the basic material which in turn can break up the adhesion of the outer layer thereto. According to the present invention, an intermediate layer (3) of ductile, corrosion-resistant material is interposed between the outer layer (2) and the basic material (1) which prevents corrosive media reaching the basic material even if the outer layer breaks down in use. <IMAGE>

Description

SPECIFICATION Continuous casting roller with a corrosion resistant and wear-resistant protective coating The invention relates to a continuous casting roller with a corrosion resistant, wear resistant protective outer layer.

It is known to make the basic material from a continuous casting roller more resistant to tension cracks by spraying a protective coating on to it. It is also known to sinter a protective coating, which may or may not have been sprayed or, on to the basic material in order to improve the adhesive bond. Sprayed coatings normally consist of a mixture of metal and metal oxides, while sintered coatings are usually purely metallic.

In known continuous casting rollers provided with the protective coatings of the kind described above, bending stresses cause cracks to appear in the crystals of the coating, which allow corrosive agents to penetrate during operation. In this way the adhesion of the protective coating to the basic material is destroyed as the result of corrosion of the basic material.

The aim of the invention is to provide a continuous casting roller having a corrosion resistant, wear resistant protective coating which affords protection of the basic material against corrosion even under high bending stress and the resultant cracking.

This aim is achieved, according to the invention by the provision of a ductile, corrosion resistant intermediate layer, acting as a buffer layer, with a thickness of not more than 0.1 mm, a melting point of at least 10000 and a breaking elongation of at least 10% between the basic material of the roller and the wear-resistant and corrosionresistant outer coating. A preferred material for this intermediate layer comprises at least one of nickel and a nickel alioy.

Advantageously, the intermediate layer is applied electrolytically and the outer coating is sintered on to the intermediate layer.

The provision of the ductile intermediate layer in the continuous casting roller according to the invention prevents corrosive media from penetrating into the basic material, even under high bending stress. Thus, a continuous casting roller is obtained which is both corrosion resistant and aiso has a wear-resistant surface. Even if tension cracks appear in the outer coating, these cracks are limited to the thickness of the outer coating.

The accompanying drawing diagrammatically shows a coolable continuous casting roller provided with a multi-layer protective coating according to the invention.

In this drawing, the basic material 1 of the roller is provided with an outer coating 2 sintered on to a ductile intermediate layer 3.

The roller shown in the drawing is internally cooled, having corresponding cooling channels and inlets and outlets for the cooling medium provided inside it. This known construction will not be described more fully here.

1. A continuous casting roller with a corrosion resistant, wear resistant protective coating wherein, between the basic material of the roller and the wear-resistant, corrosion resistant outer coating, there is provided a ductile corrosion resistant intermediate layer which is not more than 0.1 mm thick, has a melting point of at least 10000 and a breaking elongation of at least 10%.

2. A continuous casting roller according to Claim 1 wherein the material of the intermediate layer comprises at least one of nickel and a nickel alloy.

3. A continuous casting roller according to Claim 1 or Claim 2, wherein the intermediate layer is applied electrolytically to the basic material and the outer coating is sintered on to the intermediate layer.

4. A continuous casting roller according to Claim 1 and substantially as herein described.

**WARNING** end of DESC field may overlap start of CLMS **.

Claims (4)

**WARNING** start of CLMS field may overlap end of DESC **. SPECIFICATION Continuous casting roller with a corrosion resistant and wear-resistant protective coating The invention relates to a continuous casting roller with a corrosion resistant, wear resistant protective outer layer. It is known to make the basic material from a continuous casting roller more resistant to tension cracks by spraying a protective coating on to it. It is also known to sinter a protective coating, which may or may not have been sprayed or, on to the basic material in order to improve the adhesive bond. Sprayed coatings normally consist of a mixture of metal and metal oxides, while sintered coatings are usually purely metallic. In known continuous casting rollers provided with the protective coatings of the kind described above, bending stresses cause cracks to appear in the crystals of the coating, which allow corrosive agents to penetrate during operation. In this way the adhesion of the protective coating to the basic material is destroyed as the result of corrosion of the basic material. The aim of the invention is to provide a continuous casting roller having a corrosion resistant, wear resistant protective coating which affords protection of the basic material against corrosion even under high bending stress and the resultant cracking. This aim is achieved, according to the invention by the provision of a ductile, corrosion resistant intermediate layer, acting as a buffer layer, with a thickness of not more than 0.1 mm, a melting point of at least 10000 and a breaking elongation of at least 10% between the basic material of the roller and the wear-resistant and corrosionresistant outer coating. A preferred material for this intermediate layer comprises at least one of nickel and a nickel alioy. Advantageously, the intermediate layer is applied electrolytically and the outer coating is sintered on to the intermediate layer. The provision of the ductile intermediate layer in the continuous casting roller according to the invention prevents corrosive media from penetrating into the basic material, even under high bending stress. Thus, a continuous casting roller is obtained which is both corrosion resistant and aiso has a wear-resistant surface. Even if tension cracks appear in the outer coating, these cracks are limited to the thickness of the outer coating. The accompanying drawing diagrammatically shows a coolable continuous casting roller provided with a multi-layer protective coating according to the invention. In this drawing, the basic material 1 of the roller is provided with an outer coating 2 sintered on to a ductile intermediate layer 3. The roller shown in the drawing is internally cooled, having corresponding cooling channels and inlets and outlets for the cooling medium provided inside it. This known construction will not be described more fully here. CLAIMS

1. A continuous casting roller with a corrosion resistant, wear resistant protective coating wherein, between the basic material of the roller and the wear-resistant, corrosion resistant outer coating, there is provided a ductile corrosion resistant intermediate layer which is not more than 0.1 mm thick, has a melting point of at least 10000 and a breaking elongation of at least 10%.

2. A continuous casting roller according to Claim 1 wherein the material of the intermediate layer comprises at least one of nickel and a nickel alloy.

3. A continuous casting roller according to Claim 1 or Claim 2, wherein the intermediate layer is applied electrolytically to the basic material and the outer coating is sintered on to the intermediate layer.

4. A continuous casting roller according to Claim 1 and substantially as herein described.