CN108728749A

CN108728749A - A kind of wear-resisting steel plate and preparation method thereof

Info

Publication number: CN108728749A
Application number: CN201810620923.5A
Authority: CN
Inventors: 沈学如
Original assignee: Aoyang Group Co Ltd
Current assignee: Aoyang Group Co Ltd
Priority date: 2018-06-15
Filing date: 2018-06-15
Publication date: 2018-11-02

Abstract

The invention discloses a kind of wear-resisting steel plates, include following component according to mass percent meter：Carbon is 0.12~0.2%, and manganese is 0.3~0.8%, and cobalt is 0.1~0.35%, tungsten is 0.05~0.15%, neodymium is 0.01~0.04%, and nickel is 0.15~0.35%, and silicon is less than or equal to 0.3%, sulphur is less than or equal to 0.05%, boron is 0.02~0.06%, and phosphorus is less than or equal to 0.05%, and surplus is siderochrome powder and inevitable impurity, wherein, the mass ratio of the iron in the siderochrome powder and chromium is 0.8~1.2:1.The invention also discloses the preparation methods of above-mentioned steel plate, including：(1) the above proportion ingredient is pressed, it is 50~100 μm to be milled to grain diameter, obtains alloyed powder；(2) above-mentioned alloyed powder and mixing of molten steel are uniformly packed into mold, are placed in filled with melting in argon gas, the vacuum drying oven that temperature is 2000~2200 DEG C, removal of impurities, furnace cooling obtains steel billet；(3) it is 50~100 μm that granularity is milled to after being crushed above-mentioned steel billet, is packed into mold, compression moulding, 1~2h is pre-sintered at a temperature of being initially positioned at 800~850 DEG C, it is sintered 3~5h at a temperature of 1200~1300 DEG C, keeps the temperature 1~2h, obtains wear-resisting steel plate.Steel plate in the present invention has preferable wearability.

Description

A kind of wear-resisting steel plate and preparation method thereof

Technical field

The present invention relates to steel plate materials technical fields, more particularly to a kind of wear-resisting steel plate and preparation method thereof.

Background technology

The appearance and development of metal-based compound plank, dramatically improve and expanded traditional single metal material performance and Use scope.Metal-based compound plank has higher than tonicity, specific stiffness and specific strength etc. than traditional single metal material；Its Be using a kind of metal as base material, using another different physics, chemical property material as multiple material, and using complex technique by A kind of its composite board being combined.This for China lack nickel, chromium resource country for have great significance and Social benefit.

With the rapid development of the pillar ofs the economy industry such as metallurgy, chemical industry, as mining machinery, coal fell and transport, petrochemical industry, The demand multiplication to wear-resistant material composite plate such as building materials and ornaments, Marine engineering, as mining machinery track, coal use coal picker Tool, Oil and Natural Gas Transportation Pipeline and hull, structural member etc..But existing clad steel plate is due to lacking there are technique and selection It falls into, causes wearability, corrosion resistance, intensity etc. not ideal enough.

For this reason, it is necessary in view of the above-mentioned problems, propose a kind of wear-resisting steel plate and preparation method thereof, existing skill can be solved The problem of art.

Invention content

The purpose of the present invention is to provide a kind of wear-resisting steel plates and preparation method thereof, to overcome deficiency in the prior art.

To achieve the above object, the present invention provides the following technical solutions：

A kind of wear-resisting steel plate includes following component according to mass percent meter：Carbon be 0.12~0.2%, manganese be 0.3~ 0.8%, cobalt is 0.1~0.35%, and tungsten is 0.05~0.15%, and neodymium is 0.01~0.04%, and nickel is 0.15~0.35%, and silicon is small In or be equal to 0.3%, sulphur be less than or equal to 0.05%, boron be 0.02~0.06%, phosphorus be less than or equal to 0.05%, surplus is iron Chromium powder and inevitable impurity, wherein the mass ratio of iron and chromium in the siderochrome powder is 0.8~1.2:1.

Preferably, include following component according to mass percent meter：Carbon is 0.14~0.18%, and manganese is 0.4~0.65%, Cobalt be 0.2~0.25%, tungsten be 0.08~0.12%, neodymium be 0.02~0.03%, nickel be 0.2~0.3%, silicon be 0.15~ 0.25%, sulphur is 0.01~0.04%, and boron is 0.03~0.05%, and phosphorus is 0.02~0.04%, and surplus is siderochrome powder and can not The impurity avoided.

Preferably, the mass ratio of the iron in the siderochrome powder and chromium is 1.1:1.

Preferably, the thickness specification of the steel plate is 20~60mm.

The present invention also provides a kind of preparation methods of wear-resisting steel plate, include the following steps：

(1) dispensing is carried out according to following mass percent：Carbon is 0.12~0.2%, and manganese is 0.3~0.8%, cobalt 0.1 ~0.35%, tungsten is 0.05~0.15%, and neodymium is 0.01~0.04%, and nickel is 0.15~0.35%, and silicon is less than or equal to 0.3%, sulphur is less than or equal to 0.05%, and boron is 0.02~0.06%, and phosphorus is less than or equal to 0.05%, and surplus is siderochrome powder, ball It is milled to the powder that grain diameter is 50~100 μm, obtains alloyed powder；

(2) above-mentioned alloyed powder and mixing of molten steel are uniformly packed into mold, it is 2000~2200 DEG C to be placed in filled with argon gas, temperature Vacuum drying oven in melting, removal of impurities, furnace cooling obtains steel billet；

(3) it is 50~100 μm that granularity is milled to after being crushed above-mentioned steel billet, is packed into mold, and compression moulding is initially positioned at It is pre-sintered 1~2h at a temperature of 800~850 DEG C, 3~5h is sintered at a temperature of 1200~1300 DEG C, keeps the temperature 1~2h, obtains To wear-resisting steel plate.

Compared with the prior art, the advantages of the present invention are as follows：Light plate of the present invention is high with intensity, plasticity is good, toughness The preferable advantage with quenching degree performance, but also there is preferable wear-resisting property.

Specific implementation mode

The present invention is described further by the following example：According to following embodiments, the present invention may be better understood. However, as it will be easily appreciated by one skilled in the art that specific material ratio, process conditions and its result described in embodiment are only used In illustrating the present invention, without the present invention described in detail in claims should will not be limited.

The present invention discloses a kind of wear-resisting steel plate, includes following component according to mass percent meter：Carbon is 0.12~0.2%, Manganese be 0.3~0.8%, cobalt be 0.1~0.35%, tungsten be 0.05~0.15%, neodymium be 0.01~0.04%, nickel be 0.15~ 0.35%, silicon is less than or equal to 0.3%, and sulphur is less than or equal to 0.05%, and boron is 0.02~0.06%, and phosphorus is less than or equal to 0.05%, surplus be siderochrome powder and inevitable impurity, wherein the mass ratio of iron and chromium in the siderochrome powder be 0.8~ 1.2:1。

Invention additionally discloses a kind of preparation methods of wear-resisting steel plate, include the following steps：

It is following to be illustrated with specifically embodiment, to prepare the wear-resisting steel plate in the present invention.

Embodiment 1

Include following component according to mass percent meter：Carbon is 0.12%, manganese 0.3%, cobalt 0.1%, and tungsten is 0.05%, neodymium 0.01%, nickel 0.15%, boron 0.02%, surplus is siderochrome powder.

A kind of preparation method of wear-resisting steel plate, includes the following steps：

(1) dispensing is carried out according to following mass percent：Carbon is 0.12%, manganese 0.3%, cobalt 0.1%, and tungsten is 0.05%, neodymium 0.01%, nickel 0.15%, boron 0.02%, surplus is siderochrome powder, is milled to the powder that grain diameter is 50 μm End obtains alloyed powder；

(2) above-mentioned alloyed powder and mixing of molten steel are uniformly packed into mold, are placed in filled with argon gas, the vacuum that temperature is 2000 DEG C Melting in stove, removal of impurities, furnace cooling obtain steel billet；

(3) it is 50 μm that granularity is milled to after being crushed above-mentioned steel billet, is packed into mold, and compression moulding is initially positioned at 800 DEG C At a temperature of be pre-sintered 1h, 3h is sintered at a temperature of 1200 DEG C, 1h is kept the temperature, obtains wear-resisting steel plate.

Embodiment 2

Include following component according to mass percent meter：Carbon is 0.14%, manganese 0.4%, cobalt 0.2%, and tungsten is 0.08%, neodymium 0.02%, nickel 0.2%, silicon 0.15%, sulphur 0.01%, boron 0.03%, phosphorus 0.02%, surplus For siderochrome powder.

(1) dispensing is carried out according to following mass percent：Carbon is 0.14%, manganese 0.4%, cobalt 0.2%, and tungsten is 0.08%, neodymium 0.02%, nickel 0.2%, silicon 0.15%, sulphur 0.01%, boron 0.03%, phosphorus 0.02%, surplus For siderochrome powder, it is milled to the powder that grain diameter is 80 μm, obtains alloyed powder；

(2) above-mentioned alloyed powder and mixing of molten steel are uniformly packed into mold, are placed in filled with argon gas, the vacuum that temperature is 2100 DEG C Melting in stove, removal of impurities, furnace cooling obtain steel billet；

(3) it is 80 μm that granularity is milled to after being crushed above-mentioned steel billet, is packed into mold, and compression moulding is initially positioned at 830 DEG C At a temperature of be pre-sintered 1.5h, 4h is sintered at a temperature of 1250 DEG C, 1.5h is kept the temperature, obtains wear-resisting steel plate.

Embodiment 3

Include following component according to mass percent meter：Carbon is 0.16%, manganese 0.5%, cobalt 0.22%, and tungsten is 0.1%, neodymium 0.025%, nickel 0.25%, silicon 0.2%, sulphur 0.25%, boron 0.04%, phosphorus 0.03%, surplus For siderochrome powder.

(1) dispensing is carried out according to following mass percent：Carbon is 0.16%, manganese 0.5%, cobalt 0.22%, and tungsten is 0.1%, neodymium 0.025%, nickel 0.25%, silicon 0.2%, sulphur 0.25%, boron 0.04%, phosphorus 0.03%, surplus For siderochrome powder, it is milled to the powder that grain diameter is 80 μm, obtains alloyed powder；

Embodiment 4

Include following component according to mass percent meter：Carbon is 0.18%, manganese 0.65%, cobalt 0.25%, and tungsten is 0.12%, neodymium 0.03%, nickel 0.3%, silicon 0.25%, sulphur 0.04%, boron 0.05%, phosphorus 0.04%, surplus For siderochrome powder.

(1) dispensing is carried out according to following mass percent：Carbon is 0.18%, manganese 0.65%, cobalt 0.25%, and tungsten is 0.12%, neodymium 0.03%, nickel 0.3%, silicon 0.25%, sulphur 0.04%, boron 0.05%, phosphorus 0.04%, surplus For siderochrome powder, it is milled to the powder that grain diameter is 80 μm, obtains alloyed powder；

Embodiment 5

Include following component according to mass percent meter：Carbon is 0.2%, manganese 0.8%, cobalt 0.35%, and tungsten is 0.15%, neodymium 0.04%, nickel 0.35%, silicon 0.3%, sulphur 0.05%, boron 0.06%, phosphorus 0.05%, surplus For siderochrome powder.

(1) dispensing is carried out according to following mass percent：Carbon is 0.2%, manganese 0.8%, cobalt 0.35%, and tungsten is 0.15%, neodymium 0.04%, nickel 0.35%, silicon 0.3%, sulphur 0.05%, boron 0.06%, phosphorus 0.05%, surplus For siderochrome powder, it is milled to the powder that grain diameter is 100 μm, obtains alloyed powder；

(2) above-mentioned alloyed powder and mixing of molten steel are uniformly packed into mold, are placed in filled with argon gas, the vacuum that temperature is 2200 DEG C Melting in stove, removal of impurities, furnace cooling obtain steel billet；

(3) it is 100 μm that granularity is milled to after being crushed above-mentioned steel billet, is packed into mold, and compression moulding is initially positioned at 850 DEG C At a temperature of be pre-sintered 2h, 5h is sintered at a temperature of 1300 DEG C, 2h is kept the temperature, obtains wear-resisting steel plate.

Finally, it is to be noted that, the terms "include", "comprise" or its any other variant be intended to it is non-exclusive Property include so that including a series of elements process, method, article or equipment not only include those elements, but also Further include other elements that are not explicitly listed, or further include for this process, method, article or equipment it is intrinsic Element.

Claims

1. a kind of wear-resisting steel plate, which is characterized in that according to mass percent meter include following component：Carbon is 0.12~0.2%, manganese Be 0.3~0.8%, cobalt be 0.1~0.35%, tungsten be 0.05~0.15%, neodymium be 0.01~0.04%, nickel be 0.15~ 0.35%, silicon is less than or equal to 0.3%, and sulphur is less than or equal to 0.05%, and boron is 0.02~0.06%, and phosphorus is less than or equal to 0.05%, surplus be siderochrome powder and inevitable impurity, wherein the mass ratio of iron and chromium in the siderochrome powder be 0.8~ 1.2:1。

2. wear-resisting steel plate according to claim 1, which is characterized in that according to mass percent meter include following component：Carbon Be 0.14~0.18%, manganese be 0.4~0.65%, cobalt be 0.2~0.25%, tungsten be 0.08~0.12%, neodymium be 0.02~ 0.03%, nickel is 0.2~0.3%, and silicon is 0.15~0.25%, and sulphur is 0.01~0.04%, and boron is 0.03~0.05%, and phosphorus is 0.02~0.04%, surplus is siderochrome powder and inevitable impurity.

3. wear-resisting steel plate according to claim 1, which is characterized in that the mass ratio of iron and chromium in the siderochrome powder is 1.1:1。

4. wear-resisting steel plate according to claim 1, which is characterized in that the thickness specification of the steel plate is 20~60mm.

5. a kind of preparation method of wear-resisting steel plate, which is characterized in that include the following steps：

(1) dispensing is carried out according to following mass percent：Carbon be 0.12~0.2%, manganese be 0.3~0.8%, cobalt be 0.1~ 0.35%, tungsten is 0.05~0.15%, and neodymium is 0.01~0.04%, and nickel is 0.15~0.35%, and silicon is less than or equal to 0.3%, Sulphur is less than or equal to 0.05%, and boron is 0.02~0.06%, and phosphorus is less than or equal to 0.05%, and surplus is siderochrome powder, is milled to The powder that grain grain size is 50~100 μm, obtains alloyed powder；

(2) above-mentioned alloyed powder and mixing of molten steel are uniformly packed into mold, it is 2000~2200 DEG C true to be placed in filled with argon gas, temperature Melting in empty stove, removal of impurities, furnace cooling obtain steel billet；

(3) by above-mentioned steel billet it is broken after to be milled to granularity be 50~100 μm, be packed into mold, compression moulding, be initially positioned at 800~ It is pre-sintered 1~2h at a temperature of 850 DEG C, 3~5h is sintered at a temperature of 1200~1300 DEG C, keeps the temperature 1~2h, obtains wear-resisting Steel plate.