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Method for preventing interface of stainless steel compound plate subjected to vacuum composite rolling from being oxidized

A composite rolling and stainless steel plate technology, applied in the direction of metal rolling, metal rolling, manufacturing tools, etc., can solve the problems of composite plate interface plasticity, weakening interface bonding performance, corrosion resistance decline, etc., to eliminate decarburization and chromium-rich layer, solve the problem of element diffusion, and improve the effect of shear strength

Active Publication Date: 2011-09-14
沈阳科安捷材料技术有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

After a large number of experimental studies, it was found that although the composite interface of the stainless steel-carbon steel clad plate obtained by the vacuum composite rolling method has a high bonding strength, there is decarburization and a hard chromium-rich layer, decarburization and chromium elements Diffusion of the interface will lead to a decrease in the corrosion resistance of the interface and weaken the bonding performance of the interface; the reason is that during the vacuum composite rolling process, the interface between the stainless steel plate and the carbon steel plate is in direct contact, and the interface is under the action of high temperature in the heating furnace. The carbon element diffuses to the stainless steel side, and the carbon element diffuses to the stainless steel side, resulting in intergranular corrosion. At the same time, the chromium element on the stainless steel side diffuses to the carbon steel side, forming a high-hardness chromium-rich layer, which has a great influence on the plasticity of the composite plate interface. influences

Method used

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  • Method for preventing interface of stainless steel compound plate subjected to vacuum composite rolling from being oxidized
  • Method for preventing interface of stainless steel compound plate subjected to vacuum composite rolling from being oxidized

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0027] The size of the stainless steel plate material is 500×200×2mm, and the size of the carbon steel plate material is 500×200×10mm. The rust layer and the oxide layer on one side of the two stainless steel plate materials are respectively removed, and then the rust layer and the oxide layer are removed. The side of the oxide layer is cleaned with ethanol and dried; the rust layer and the oxide layer on the two sides of a carbon steel plate material are removed, and then the side with the rust layer and the oxide layer is cleaned with ethanol and dried;

[0028] The stainless steel plate material and carbon steel plate material are stacked alternately, and the adjacent stainless steel plate material and carbon steel plate material are separated by nickel foil, and the two sides of the nickel foil are respectively connected with the cleaned side of the stainless steel plate material and the carbon steel plate material The cleaned sides of the materials are connected, and the s...

Embodiment 2

[0036] The size of the stainless steel plate material is 1000×200×4mm, and the size of the carbon steel plate material is 1000×200×10mm. The rust layer and the oxide layer on one side of the two stainless steel plate materials are respectively removed, and then the rust layer and the oxide layer are removed. The side of the oxide layer is cleaned with acetone and blown dry; the rust layer and the oxide layer on the two sides of a carbon steel plate material are removed, and then the side where the rust layer and the oxide layer are removed is cleaned with acetone and dried;

[0037] The stainless steel plate material and carbon steel plate material are stacked alternately, and the adjacent stainless steel plate material and carbon steel plate material are separated by nickel foil, and the two sides of the nickel foil are respectively connected with the cleaned side of the stainless steel plate material and the carbon steel plate material The cleaned sides of the materials are c...

Embodiment 3

[0044] The size of the stainless steel plate material is 500×200×1mm, the size of the carbon steel plate material is 500×200×10mm, respectively remove the rust layer and the oxide layer on one side of the stainless steel plate material and the carbon steel plate material, and then remove the rust layer and the sides of the oxide layer were cleaned with ethanol and dried;

[0045] The stainless steel plate material and the carbon steel plate material are stacked alternately, and the stainless steel plate material and the carbon steel plate material are separated by nickel foil, and the two sides of the nickel foil are respectively connected with the cleaned side of the stainless steel plate material and the carbon steel plate material after cleaning The side of the stainless steel plate material and the side of the carbon steel plate material are overlapped with the side of the nickel foil to make a composite blank consisting of 2 layers of steel plate material and 1 layer of ni...

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Abstract

The invention discloses a method for preventing an interface of a stainless steel compound plate subjected to vacuum composite rolling from being oxidized, and belongs to the technical field of materials. The method comprises the following steps of: (1) performing surface treatment; (2) alternately overlapping a stainless steel plate material and a carbon steel plate material, and separating by using nickel foils to obtain a composite blank; (3) putting between two metal panels to form a clamped composite blank, or welding two composite blanks to form a composite blank-blocker-composite blankcombined structure, and putting between two metal panels to form the clamped composite blank; (4) putting in a vacuum chamber, vacuumizing and welding the peripheries of contact surfaces; (5) heatingand keeping temperature in a resistance furnace to obtain the composite blank subjected to heat treatment; and (6) removing the metal panels, and rolling the composition blank subjected to heat treatment. The method solves the problem of element diffusion of the interface in the process of preparing a stainless steel-carbon steel compound plate, so that the shear strength of the interface is improved by 10-40MPa, and the decarbonization and a chromium-rich layer of the interface are eliminated.

Description

technical field [0001] The invention belongs to the technical field of materials, and in particular relates to a method for preventing interface oxidation of vacuum composite rolled stainless steel clad plates. Background technique [0002] Due to its combination of corrosion resistance of stainless steel and low cost of carbon steel, stainless steel-carbon steel clad plate is widely used in various fields such as oil pipelines, natural gas storage tanks and chemical industry. The traditional methods for preparing stainless steel-carbon steel clad plates mainly include explosive clad method, brazing clad method and rolling clad method. The vacuum compound rolling method is a new method of producing composite plates based on the traditional rolling method; this method cuts out stainless steel plates and carbon steel plates with the same length and width, and cleans the surfaces of the stainless steel plates and carbon steel plates to be compounded. Clean the surface to be co...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B21B1/38B21B47/02
Inventor 谢广明王光磊骆宗安王国栋
Owner 沈阳科安捷材料技术有限公司
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