CN109338243A - A kind of powder sintered titanium master alloy Heat-Treatment of Steel technique - Google Patents

Abstract

The invention discloses a kind of powder sintered titanium master alloy Heat-Treatment of Steel techniques, include the following steps: S1, main component: C 2.473%, Ti 6%, Cr 3%, Mo 2%, Nb 2%, surplus Fe.Heat treatment process is made of solution strengthening (quenching) and dispersion-strengtherning (tempering)；S2, powder preparation and compression moulding: conventional machinery is crushed, is atomized, physical-chemical process produces powder.Have following advantages compared with prior art: for improving the mechanical property of powder sintered high titanium steel, mainly for following chemical component powder sintered titanium master alloy steel and design: C 2.473%, Ti 6%, Cr 3%, Mo 2%, Nb 2%, surplus Fe.Heat treatment process is made of solution strengthening (quenching) and dispersion-strengtherning (tempering), the powder sintered titanium master alloy steel processed by above-mentioned heat treatment process, its hardness reaches HRC68 (Rockwell hardness) or more, bending strength reaches 1700MPa (megapascal) or more, the performance of prepared titanium master alloy steel can be further increased.

Description

A kind of powder sintered titanium master alloy Heat-Treatment of Steel technique

Technical field

The present invention relates to a kind of heat treatment process, more specifically more particularly to a kind of powder sintered titanium master alloy steel Heat treatment process.

Background technique

Titanium is a kind of important structural metal to grow up the 1950s, and titanium alloy intensity is high, corrosion resistance is good, resistance to Hot height.The structure titanium of 50~sixties of 20th century, the high-temperature titanium alloy and body that mainly develop aero-engine close Gold.A collection of corrosion resistant Ti alloy is developed the seventies, since the eighties, corrosion resistant Ti alloy and high-strength titanium alloy are further sent out Exhibition.Titanium alloy is mainly used for making aircraft engine compressor parts, is secondly rocket, the structural member of guided missile and high-speed aircraft.

Currently, well known titanium alloy steel is obtained by melting, Ti content is less than 2% (wt%), limits Raising of the titanium elements to the intensity and hardness of steel.Therefore, it applicants have invented a kind of powder sintered titanium master alloy steel, obtains preferably Effect on this basis, can will be prepared the invention discloses a kind of powder sintered titanium master alloy Heat-Treatment of Steel technique The performance of titanium master alloy steel further increase, for this purpose, it is proposed that a kind of powder sintered titanium master alloy Heat-Treatment of Steel technique.

Summary of the invention

The purpose of the present invention is to solve disadvantages existing in the prior art, and the powder sintered high titanium of the one kind proposed closes Golden Heat-Treatment of Steel technique, being capable of bring benefit: for improving the mechanical property of powder sintered high titanium steel, mainly for The powder sintered titanium master alloy steel of lower chemical component and design: C 2.473%, Ti 6%, Cr 3%, Mo 2%, Nb 2%, it is remaining Amount is Fe.Heat treatment process is made of solution strengthening (quenching) and dispersion-strengtherning (tempering), is processed by above-mentioned heat treatment process Powder sintered titanium master alloy steel, hardness reaches HRC68 (Rockwell hardness) or more, and bending strength reaches 1700MPa (megapascal) More than, the performance of prepared titanium master alloy steel can be further increased.

To achieve the above object, the invention provides the following technical scheme: a kind of powder sintered titanium master alloy Heat-Treatment of Steel Technique includes the following steps:

S1, main component: C 2.473%, Ti 6%, Cr 3%, Mo 2%, Nb 2%, surplus Fe.Heat treatment process It is made of solution strengthening (quenching) and dispersion-strengtherning (tempering)；

S2, powder preparation and compression moulding: conventional machinery is crushed, is atomized, physical-chemical process produces powder, the powder produced By sieving and mixing, mixing is uniform and plasticizer appropriate is added, then is pressed, and the atom between powder passes through solid phase Diffusion and mechanical snap effect, make product be combined into the entirety with some strength；

S3, sintering: the product of compression moulding being placed in the close furnace using reducing atmosphere and is sintered, sintering temperature Degree is about 2/3~3/4 times of parent metal fusing point, due to the diffusion of variety classes atom under high temperature, powder oxide on surface It is reduced and is deformed the recrystallization of powder, powder particle is made to be combined with each other, improves the intensity of sintered metal product, and is obtained Tissue similar with general alloy.

Preferably, post-process: the density and size shape precision of product can be improved in pressure-sizing processing；To ferrous based powder metallurgical The processing such as product quenched, surface hardening can improve its mechanical performance；For reach lubrication or anti-corrosion purpose and carry out immersion oil or Impregnate other liquid lubricants.

Preferably, solution strengthening heat treatment (quenching): the high-vandium steel sample having a size of 30 × 10mm of Φ is placed in heat-treatment furnace In, 550 DEG C are heated to, keeps the temperature 15 minutes；Continue to be heated to 850 DEG C, keeps the temperature 15 minutes；1080 DEG C are finally heated to, heat preservation 20 Oil is taken out after minute out of furnace and is cooled to room temperature, 80-100 DEG C of cooling rate/S.

Preferably, dispersion-strengtherning heat treatment (tempering): by the powder sintered steel alloy of quenching, being put into heat-treatment furnace, 540 DEG C are heated to, heat preservation after sixty minutes, is taken out after being air-cooled to room temperature.

Preferably, be chemically treated: the process that carbon atom penetrates into is called carburizing by carburizing, steel piece surface, and carburizing is used for low-carbon Steel and low-alloy steel (0.1-0.25%C), steel of the phosphorus content higher than 0.3% are seldom used, and steel part has after over carburizing and quenching High surface hardness (HRC=60-65) and wearability, and center still keeps high toughness.

Preferably, blackening process: blackening process belongs to one kind of oxidation treatment method, its main purpose is to make metal watch Face antirust increases metal surface beauty and gloss, eliminates the stress in quenching process.

Preferably, the powder sintered titanium master alloy steel processed by above-mentioned heat treatment process, hardness reach HRC68 More than (Rockwell hardness), bending strength reaches 1700MPa (megapascal) or more.

Preferably, quenched: the quenched purpose is that steel part is made to obtain very high toughness and enough intensity, is made it have Good comprehensive mechanical performance, quenched is usually to carry out after part machinery processing, can also be forging stock or by rough machined It is machined again after light base is quenched.

Technical effect and advantage of the invention: for improving the mechanical property of powder sintered high titanium steel, mainly for The powder sintered titanium master alloy steel of lower chemical component and design: C 2.473%, Ti 6%, Cr 3%, Mo 2%, Nb 2%, it is remaining Amount is Fe.Heat treatment process is made of solution strengthening (quenching) and dispersion-strengtherning (tempering), is processed by above-mentioned heat treatment process Powder sintered titanium master alloy steel, hardness reaches HRC68 (Rockwell hardness) or more, and bending strength reaches 1700MPa (megapascal) More than, the performance of prepared titanium master alloy steel can be further increased.

Detailed description of the invention

Fig. 1 is the time-temperature relational graph of heat treatment process solution strengthening (quenching) part of the invention；

Fig. 2 is the time-temperature relational graph of heat treatment process dispersion-strengtherning (tempering) part of the invention.

Specific embodiment

In order to make the objectives, technical solutions, and advantages of the present invention clearer, below in conjunction with specific embodiment, to this Invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, not For limiting the present invention.Based on the embodiments of the present invention, those of ordinary skill in the art are not before making creative work Every other embodiment obtained is put, shall fall within the protection scope of the present invention.

Embodiment 1:

Refering to fig. 1-2, a kind of powder sintered titanium master alloy Heat-Treatment of Steel technique provided in this embodiment, including walk as follows It is rapid:

S1, main component: C 2.473%, Ti 6%, Cr 3%, Mo 2%, Nb 2%, surplus Fe.Heat treatment process It is made of solution strengthening (quenching) and dispersion-strengtherning (tempering)；

S2, powder preparation and compression moulding: conventional machinery is crushed, is atomized, physical-chemical process produces powder, the powder produced By sieving and mixing, mixing is uniform and plasticizer appropriate is added, then is pressed, and the atom between powder passes through solid phase Diffusion and mechanical snap effect, make product be combined into the entirety with some strength；

S3, sintering: the product of compression moulding being placed in the close furnace using reducing atmosphere and is sintered, sintering temperature Degree is about 2/3~3/4 times of parent metal fusing point, due to the diffusion of variety classes atom under high temperature, powder oxide on surface It is reduced and is deformed the recrystallization of powder, powder particle is made to be combined with each other, improves the intensity of sintered metal product, and is obtained Tissue similar with general alloy.

Post-processing: the density and size shape precision of product can be improved in pressure-sizing processing；Ferrous based powder metallurgical product is carried out The processing such as quenching, surface hardening can improve its mechanical performance；Immersion oil is carried out to reach lubrication or anti-corrosion purpose or dipping is other Liquid lubricant.

Solution strengthening is heat-treated (quenching): the high-vandium steel sample having a size of 30 × 10mm of Φ is placed in heat-treatment furnace, heating To 550 DEG C, 15 minutes are kept the temperature；Continue to be heated to 850 DEG C, keeps the temperature 15 minutes；Finally be heated to 1080 DEG C, heat preservation after twenty minutes from Oil is taken out in furnace is cooled to room temperature, 80-100 DEG C of cooling rate/S.

Dispersion-strengtherning is heat-treated (tempering): by the powder sintered steel alloy of quenching, being put into heat-treatment furnace, is heated to 540 DEG C, heat preservation after sixty minutes, is taken out after being air-cooled to room temperature.

Chemical treatment: the process that carbon atom penetrates into is called carburizing by carburizing, steel piece surface, and carburizing is used for mild steel and low conjunction Jin Gang (0.1-0.25%C), steel of the phosphorus content higher than 0.3% are seldom used, and steel part has high surface after over carburizing and quenching Hardness (HRC=60-65) and wearability, and center still keeps high toughness.

Blackening process: blackening process belongs to one kind of oxidation treatment method, its main purpose is to make metal surface antirust, Increase metal surface beauty and gloss, eliminates the stress in quenching process.

The powder sintered titanium master alloy steel processed by above-mentioned heat treatment process, hardness reaches HRC68, and (Rockwell is hard Degree) more than, bending strength reaches 1700MPa (megapascal) or more.

Quenched: the quenched purpose is that steel part is made to obtain very high toughness and enough intensity, is made it have good Comprehensive mechanical performance, quenched is usually to carry out after part machinery processing, forging stock or can also pass through rough machined smooth base tune It is machined again after matter.

In summary: a kind of powder sintered titanium master alloy Heat-Treatment of Steel technique provided by the invention, with prior art phase Than having following advantages: for improving the mechanical property of powder sintered high titanium steel, mainly for the powder of following chemical component It is sintered titanium master alloy steel and designs: C 2.473%, Ti 6%, Cr 3%, Mo 2%, Nb 2%, surplus Fe.It is heat-treated work Skill is made of solution strengthening (quenching) and dispersion-strengtherning (tempering), is closed by the powder sintered high titanium of above-mentioned heat treatment process processing Jin Gang, hardness reach HRC68 (Rockwell hardness) or more, and bending strength reaches 1700MPa (megapascal) or more, can will be prepared The performance of titanium master alloy steel further increase.

Finally, it should be noted that the foregoing is only a preferred embodiment of the present invention, it is not intended to restrict the invention, Although the present invention is described in detail referring to the foregoing embodiments, for those skilled in the art, still may be used To modify the technical solutions described in the foregoing embodiments or equivalent replacement of some of the technical features, All within the spirits and principles of the present invention, any modification, equivalent replacement, improvement and so on should be included in of the invention Within protection scope.

Claims (8)

1. a kind of powder sintered titanium master alloy Heat-Treatment of Steel technique, characterized by the following steps:

S1, main component: C 2.473%, Ti 6%, Cr 3%, Mo 2%, Nb 2%, surplus Fe；Heat treatment process is by solid Molten reinforcing (quenching) and dispersion-strengtherning (tempering) composition；

S2, powder preparation and compression moulding: conventional machinery is crushed, is atomized, physical-chemical process produces powder, and the powder produced passes through It sieves and mixes, mixing is uniform and plasticizer appropriate is added, then is pressed, and the atom between powder passes through solid-state diffusion It is acted on mechanical snap, product is made to be combined into the entirety with some strength；

S3, sintering: the product of compression moulding being placed in the close furnace using reducing atmosphere and is sintered, and sintering temperature is about It is 2/3~3/4 times of parent metal fusing point, due to the diffusion of variety classes atom under high temperature, powder oxide on surface is gone back Former and deformation powder recrystallization, makes powder particle be combined with each other, improves the intensity of sintered metal product, and obtain and one As the similar tissue of alloy.

2. a kind of powder sintered titanium master alloy Heat-Treatment of Steel technique according to claim 1, it is characterised in that: rear place Reason: the density and size shape precision of product can be improved in pressure-sizing processing；Ferrous based powder metallurgical product is quenched, surface is quenched The processing such as fire can improve its mechanical performance；Immersion oil or the other liquid lubricants of dipping are carried out to reach lubrication or anti-corrosion purpose.

3. a kind of powder sintered titanium master alloy Heat-Treatment of Steel technique according to claim 1, it is characterised in that: solid solution is strong Change heat treatment (quenching): the high-vandium steel sample having a size of 30 × 10mm of Φ is placed in heat-treatment furnace, is heated to 550 DEG C, heat preservation 15 Minute；Continue to be heated to 850 DEG C, keeps the temperature 15 minutes；1080 DEG C are finally heated to, heat preservation is taken out oil after twenty minutes out of furnace and is cooled to Room temperature, 80-100 DEG C of cooling rate/S.

4. a kind of powder sintered titanium master alloy Heat-Treatment of Steel technique according to claim 1, it is characterised in that: disperse is strong Change heat treatment (tempering): by the powder sintered steel alloy of quenching, being put into heat-treatment furnace, be heated to 540 DEG C, keeps the temperature 60 minutes Afterwards, it takes out after being air-cooled to room temperature.

5. a kind of powder sintered titanium master alloy Heat-Treatment of Steel technique according to claim 1, it is characterised in that: at chemistry Reason: the process that carbon atom penetrates into is called carburizing by carburizing, steel piece surface, and carburizing is used for mild steel and low-alloy steel (0.1- 0.25%C), steel of the phosphorus content higher than 0.3% is seldom used, and steel part has high surface hardness (HRC=after over carburizing and quenching 60-65) and wearability, and center still keeps high toughness.

6. a kind of powder sintered titanium master alloy Heat-Treatment of Steel technique according to claim 1, it is characterised in that: at nigrescence Reason: blackening process belongs to one kind of oxidation treatment method, its main purpose is to make metal surface antirust, increases metal surface beauty Sight and gloss eliminate the stress in quenching process.

7. a kind of powder sintered titanium master alloy Heat-Treatment of Steel technique according to claim 1, it is characterised in that: the warp The powder sintered titanium master alloy steel of above-mentioned heat treatment process processing is crossed, hardness reaches HRC68 (Rockwell hardness) or more, and bending resistance is strong Degree reaches 1700MPa (megapascal) or more.

8. a kind of powder sintered titanium master alloy Heat-Treatment of Steel technique according to claim 1, it is characterised in that: quenched: The quenched purpose is that steel part is made to obtain very high toughness and enough intensity, makes it have good comprehensive mechanical performance, Quenched is usually to carry out after part machinery processing, can also carry out again machinery forging stock or after rough machined smooth base is quenched Processing.