WC composite guide roller and manufacturing method thereof

A manufacturing method and technology of guide rollers, which are applied in the direction of manufacturing tools, rollers, metal rolling, etc., can solve the problems of improving the structure and performance of the cladding layer, short service life, and high cost, improving the shape and distribution, and saving precious metals. , The effect of improving wear resistance

Inactive Publication Date: 2010-04-21
合肥上雅电子科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The first few types of guide rollers have low cost, but short service life; high-speed steel guide rollers have serious segregation, eutectic carbides tend to be distributed in a network, are brittle and easy to break; hard alloys have a long service life, but are expensive and not cost-effective
There are also methods of surface coating alloy or composite materials at home and abroad, but the coated composite materials are usually expensive composite materials such as WC-Co composite materials, WC-Ni composite materials, TiC-Ti composite materials, and cannot be heat treated. Significantly improve the structure and performance of the cladding layer, the coating process adopts a single spraying process or laser cladding process, or vacuum sintering process
The coating process adopts a single spraying process and can only form a mechanical bond with the steel substrate; the laser cladding is high in cost and the cladding layer is shallow; although the vacuum fusion cladding process can form a metallurgical bond, the cladding is expensive and low Melting point Ni-based alloy, high cost, complex process, limited performance improvement

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0032] In terms of weight percentage, the composition of the composite material is: 25% WC, 1.0% Cr, 1.0% Mo, 0.5% Nb, 0.2% RE, Ti, Ni, Mn, V, Zr, Si or the total amount of B alloy elements does not exceed 2%, the carbon content in the steel matrix of the composite material is 0.4%, and the balance is Fe; the above-mentioned composite material raw materials are mixed and ball-milled to make a powder, which is coated on the metal surface by plasma spraying to make it compatible with Metal surface bonding. In order to prevent peeling, the thickness of the sprayed layer should not exceed 1mm. The remelting processing method of argon arc remelting is used to remelt the surface coating layer and form a metallurgical bond with the steel matrix. The specific argon arc remelting process is as follows: the current is 70A, the welding speed is 130mm / min, and the argon gas flow rate is 10L / mim. In order to ensure a relatively stable arc, high melting efficiency, deep and narrow molten l...

Embodiment 2

[0034] In terms of weight percentage, the composition of the composite material is: 15% WC, 1.0% Cr, 1.0% Mo, 0.5% Nb, 0.2% RE, Ti, Ni, Mn, V, Zr, Si or the total amount of B alloy elements does not exceed 2%, the carbon content in the steel matrix of the composite material is 0.4%, and the balance is Fe; the above-mentioned composite material raw materials are mixed and ball-milled to make a powder, which is coated on the metal surface by plasma spraying to make it compatible with The metal surface is bonded, and the thickness of the sprayed layer does not exceed 1mm. The remelting processing method of argon arc remelting is used to remelt the surface coating layer and form a metallurgical bond with the steel matrix. The specific argon arc remelting process is as follows: the current is 70A, the welding speed is 130mm / min, and the argon gas flow rate is 10L / mim. In order to ensure a relatively stable arc, high melting efficiency, deep and narrow molten layer, and small shrink...

Embodiment 3

[0036] In terms of weight percentage, the composition of the composite material is: 25% WC, 1.0% Cr, 1.0% Mo, 0.5% Nb, 0.2% RE, Ti, Ni, Mn, V, Zr, Si or the total amount of B alloy elements does not exceed 2%, the carbon content in the steel matrix of the composite material is 0.4%, and the balance is Fe; the above composite material raw materials are mixed and ball milled to make powder, and the pretreated composite material powder is directly sprayed on the steel matrix surface, and adopt the argon arc remelting method to melt while spraying, so that it is remelted together with the steel matrix, forming a composite material layer on the surface of the steel matrix, and forming a metallurgical bond between the composite material and the steel matrix. The specific argon arc remelting process is: current 70A, welding speed 130mm / min, argon gas flow rate 10L / mim. The arc adopts DC positive connection for lap fusion.

[0037] The guide roller is subject to strong friction and wea...

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Abstract

The invention discloses a WC composite guide roller and a manufacturing method thereof. A composite layer is arranged on the surface of matrix steel of the composite guide roller. The WC composite guide roller is characterized in that the matrix steel is carbon steel or alloy steel containing 0.2-0.7 percent by weight of carbon; the composite layer comprises the following material components in percentage by weight: 10-50 percent of WC, 0.2-0.8 percent of C, 0-3.0 percent of Cr, 0-2.0 percent of Mo, 0-2.0 percent of Mn, 0.11-0.5 percent of RE, not more than 5 percent of other metallic and non-metallic elements and the balance of Fe. The manufacturing method of the WC composite guide roller comprises the following steps of: coating composite powder on the surface of the matrix steel by using an plasma coating method and enabling the composite powder to be remelted together with the matrix steel by using an argon arc remelting method so as to form the composite layer on the surface of the matrix steel; or directly spraying the composite powder on the surface of the matrix steel and enabling the composite powder to be remelted together with the matrix steel by using the argon arc remelting method. The composite guide roller has high rigidity, good abrasion resistance, low fragility, capability of thermal treatment and mechanical machining, low cost and high cost performance.

Description

technical field [0001] The invention relates to a guide roll of a wire bar profile rolling mill and a preparation method thereof. Background technique [0002] Guide roller is a key part and main consumable part of wire, rod and profile forming equipment, and its market demand is very large. At present, the guide rollers used at home and abroad mainly include high-chromium cast iron, high-chromium cast steel, nickel-chromium chilled cast iron, Cr12MoV steel, high-speed steel and hard alloy. The first few types of guide rollers have low cost, but short service life; high-speed steel guide rollers have serious segregation, eutectic carbides tend to be distributed in a network, are brittle and easy to break; hard alloys have a long service life, but are expensive and not cost-effective . There are also methods of surface coating alloy or composite materials at home and abroad, but the coated composite materials are usually expensive composite materials such as WC-Co composite...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B21B27/00B23P15/00
Inventor 杜晓东杜炤鑫杜怡林袁霞
Owner 合肥上雅电子科技有限公司
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