CN108570608A - A kind of rare earth strontium toughening high hard alloy and its casting and heat treatment method - Google Patents

Abstract

The mass percentage of a kind of rare earth strontium toughening high hard alloy and its casting and heat treatment method, alloy each element is Cr：9.0~13.0, B：2.6~2.9, C：0.7~0.9, Nb：0.4~0.8, V：The content of 0.4~0.8, Mn are less than 0.3, Sr：0.05~0.5, S, P：≤ 0.01, surplus Fe.Wherein C, B summation：3.3~3.6；C/Cr content ratios：0.06~0.08；The summation of Nb, V are 0.5~1.0.It gets out Fe SrO powder compacts first, is handled by cast alloys after alloying ingredient, melting and Metamorphism treatment, then using Q-tempering.Ingot casting integral hardness of the present invention reaches HRC67.4~70.2, and impact flexibility reaches 10.2~12.8J/cm², bending strength reaches 960~1080MPa.

Description

A kind of rare earth strontium toughening high hard alloy and its casting and heat treatment method

Technical field

The invention belongs to high-hardness and wear-resistant cast-iron fields, are related to a kind of fine hard phase and super saturated solid solution that strontium is rotten Body, martensitic matrix phase wear and corrosion resistant cast iron alloy and its component preparation method, can be widely used for electric power, metallurgy, machinery, Mechanical wearing piece manufacture in the industries such as chemical industry.

Technical background

Fe-Cr-B-C abrasion resistant casting alloys are mainly with Fe₂B or M₂B is hard phase, has good toughness and high rigidity, height Corrosion resistance, melting-casting manufacturability is good, has very wide application prospect.

Metamorphism treatment is to improve one of Fe-Cr-B-C alloy structures and mechanical property effective ways.Alterant is according to effect The elements such as strong carbon, nitrogen, sulfide formation element, such as Ti, V, and strong constitutional supercooling element, such as surface active element can be divided into Rare earth (RE), Mg etc..

Rare earth element is gathered on the solid growth interface of liquid, and limitation crystal grain is grown up, to improve the hardness of alloy, intensity and resistance to Mill property；And thinning microstructure, so that boride suspension shape and graininess distribution is occurred, improves impact flexibility.Research shows that：In Fe-Cr- The cerium (Ce) of addition 0.6% can make impact flexibility improve 86.4% in B-C alloys.Add the mixing alterant of 1.0% (Ce+La) Into Fe-Cr-B alloys, the hardness of alloy increases to 70.2HRC by 52HRC, and impact flexibility is by 3.36J/cm²It is increased to 6.38J/cm²。

RE Modified can rare earth alloy or rare-earth wires single Modification Manners, can also take compound modification treatment, i.e., with N, The elements such as Ti, V, Mg, Si and lucium are as alterant.Silicon Mg mixed rare-earth alterant (RE-Si-Mg) is most commonly Composite inoculating method, some researches show that：Fe-Cr-B-C alloys impact toughness after RE-Si-Mg is rotten is higher than not rotten premise 72.2%；After RE-Ti goes bad and is heat-treated, impact flexibility improves 1.8 times；Through RE-Mg go bad impact flexibility improve 34.6%；Desmachyme all disappears after RE-Ti-N is rotten, and toughness improves 133.3%；Through RE-Mg-V-Ti Metamorphism treatments Afterwards, impact flexibility reaches 15.6J/cm²；After RE-Ti-Si-V Metamorphism treatments, impact flexibility reaches 12J/cm²More than.

These using the method for RE Modified all there are one common difficulty, i.e. the pure rare earth, rare earth alloy of high activity or multiple Close rare earth material.Due to the high activity of rare earth so that the tissue of alloy, performance are difficult to control after alterant itself or Metamorphism treatment System, modification effect are difficult to ensure.

Document 1：LM cathodes research-emission principle and present Research [D] Beijing University of Technology, 2001：pp44-50.Carbonization La₂O₃The chemical balance of-Mo alloys：

3Mo₂C(s)+La₂O₃(s)=2La (s, l)+3CO (g)+6Mo

Due to Mo₂The effect of C, the reduction reaction free enthalpy variation for generating simple substance La is small very much, to reaction product La With the also high 10 several orders of magnitude of the equilibrium partial pressure of CO.When temperature is higher than 1673K, i.e., 1400 DEG C, CO partial pressures are less than E-9atm When, reaction equation can carry out to the right automatically, i.e. reduction generates simple substance La.

Patent document 2：The antifriction alloy hardness of Authorization Notice No. CN 105695884B, preparation are HRC66~70, impact 4~9J/cm of toughness².The hardness of such alloy is higher, but impact flexibility is insufficient, and intensity index is relatively low, and bending strength is relatively low, 346~477MPa ranges limit the occasion that the Alloyapplication is big in some external loads, impact resistance is needed to act on.

Document 3：The rapid cooling organization and performance of eutectic Fe-Cr-B-C alloys, casting, 2017,66 (10):1053~1056. The rapid cooling tissue of as cast condition Fe-Cr-B-C alloys by martensite+retained austenite matrix and along the continuous net-shaped distribution of crystal boundary (Fe, Cr)₂(B,C)+(Fe,Cr)₂₃(B,C)₆Hard phase composition.The microhardness of rapid cooling tissue matrix phase is 800~880HV, hard Phase microhardness is 1150~1400HV, macrohardness HRC68, and impact flexibility reaches 13.6J/cm²；And it is moved back through 960 DEG C of@2h After fire, matrix is changed into ferrite and nodular cementite, hard phase (Fe, Cr)₂(B, C) and (Fe, Cr)₂₃(B,C)₆On a small quantity There is suspension, cenotype (Fe, Cr) occur in dissolving, regional area₃(B, C), matrix phase microhardness is 330~400HV after annealing, Hard phase is 850~1250HV, and macrohardness is reduced to HRC46, and impact flexibility is reduced to 3.4J/cm².3 acquired results of document Reflect that the hardness of matrix phase plays significant role to the hardness and impact flexibility of such material；Using high temperature solid solution quenching-low temperature Temper, is improved the solid solubility of matrix phase and the possibility of hardness, referenced patent document 2, such alloy after Overheating Treatment, There is the possibility promoted in aspect of performance such as impact flexibility.

Invention content

The object of the present invention is to provide a kind of rare earth strontium toughening high hard alloy and its casting and heat treatment methods.This method is adopted It is alterant with SrO, the carbide, boride in high temperature melting state Fe-Cr-B-C alloys, which have, promotes high activity Sr first The thermodynamic condition that element is formed, and form compound containing Sr in C, B so that casting alloy structure refinement, carbon boride break Netted and presentation graininess distribution；After heat treatment, matrix is that the polynary supersaturated solid solution of high rigidity, martensite etc. are non-equilibrium Phase so that alloy has good toughness, high rigidity and higher intensity index.

Since SrO powder densities are very low, being added directly into melt can float with clinker and cause Sr loss of elements, to lose Remove modification effect, thus the present invention using SrO powder with iron powder after mixing, be molded into powder compact, then with Fe-Cr-B-C Casting alloy melts together.The weight ratio of SrO powder and iron powder substantially 1:5~20, that is, form Fe-4.07~14.24wt.%Sr Mixing briquetting.The too high levels of the too low then Fe of Sr amounts, can influence burdening calculation；And then green compact forming is tired for Sr too high levels It is difficult.Wherein SrO powder is white amorphous powder, and SrO contents are more than 99.0%, therefore do not do to its purity and granularity and strictly want It asks.Fe powder is to restore Fe powder or water atomization Fe powder, can be containing in the alloying element or impurity ranges in modified cast iron in Fe powder Element, such as Ni, V, Cr, being subject to does not influence briquette forming and influences burdening calculation.

The high-wearing feature for the patent document 2 that the present invention selects, high corrosion-resistant Fe-Cr-B-C alloys are basic alloy, then are added Add 0.05~0.5wt.%Sr elements rotten.Form the multi-element eutectic alloy containing elements such as Fe, Cr, B, C, Nb, V, Sr, each element Mass percentage be Cr：9.0~13.0, B：2.6~2.9, C：0.7~0.9, Nb：0.4~0.8, V：0.4~0.8, Mn Content be less than 0.3, Sr：0.05~0.5, S, P：≤ 0.01, surplus Fe.Wherein C, B summation：3.3~3.6；C/Cr contents Than：0.06~0.08；The summation of Nb, V are 0.5~1.0.

With reference to patent document 2, it is specific prepare alloy when, can be used ferrochrome (high-carbon, middle carbon, micro- carbon), ferro-boron, ferro-niobium, Vanadium iron, pure iron, etc. according to component requirements dispensing.Raw material and its composition are listed in table 1.

Table 1 can be applied to prepare the raw material and composition of invention alloy

The material composition of table 1 is not unique, and specific ingredient raw material obtained by reality determine.Wherein ferrochrome, Crome metal, ferro-boron, ferro-niobium and vanadium iron provide the content of Cr, B, Nb and V of invention alloy, and high carbon ferro-chrome is used for balancing C content.It is pure Iron can be electrical pure iron, electromagnetic pure iron or ingot iron.

The method specifically comprises the following steps：

(1) Fe-SrO powder compacts prepare

After mixing using iron powder and SrO powder, it is molded into powder compact.The weight ratio of SrO powder and iron powder substantially 1:5 ~20, that is, form the Fe-SrO mixing briquettings of Fe-4.07~14.24%Sr.The carrier to go bad as rare earth Sr.

(2) alloying ingredient, melting and Metamorphism treatment

After weighing good corresponding raw material according to the component requirements proportioning of Fe-Cr-B-C alloys, then add 0.05~0.5%Sr Element is rotten.Fe-SrO powder compacts are positioned over furnace bottom first, be then placed in ferrochrome, crome metal, ferro-boron, ferro-niobium, vanadium iron and Pure iron.Induction furnace, vaccum sensitive stove etc. can be used carry out melting and prepares alloy.Fusion temperature is higher than 1500~1600 DEG C；Then it drops Low furnace power, after melt temperature is down to 1300~1350 DEG C, with the fine aluminium deoxidation of dispensing total amount 0.1~0.15%；Continue Heat preservation stands about 5~10 minutes.

(3) it casts

Ranging from 1250~1300 DEG C of cast temperature.Designed alloy has deep eutectic ingredient, is molded in normal sands Non-equilibrium matrix can be formed under the conditions of making, such as amorphous, nanocrystalline or martensitic structure.Since designed alloy is total Brilliant ingredient, melt have good mobility fine, can casting and forming by various methods, such as normal sands Mold casting or The special casting method such as model casting, lost foam casting, permanent mold casting, ceramic mold casting, die casting, centrifugal casting.

In order to avoid thermal stress-cracking occurs, die sinking temperature will be less than 200 DEG C after having cast, and naturally cool to environment temperature Degree.

(4) it is heat-treated

Casting is put into box stove heat, heating temperature is 950~1060 DEG C, and soaking time is 1~4h.Heat temperature raising Speed is no more than 10 DEG C/min.After heat preservation, casting is quickly entered to 5~15% brine or buck quenching cooling.It is cooled Cheng Zhongying is stirred continuously, and quenches cooling time >=30min.Then in 200~250 DEG C of 2~4h of temper, ring is naturally cooled to Border temperature.

Step (1) described iron powder is purity >=98.5%, the reduced iron powder or purity >=99.0% of -100 mesh of granularity, grain Spend the water-atomized iron powder of -100 mesh, or quite granularity contains a small amount of alloy iron powder for not influencing casting alloy ingredient.Also may be used To select the powder of smaller particle size, the compact strength with follow-up dispensing and furnace charge preparation is not influenced can be pressed by being subject to.

Step (1) is described to be uniformly mixed into mixed cartridge type batch mixing, V-type batch mixing or stir mixing, substantial uniform to realize .

Step (1) described green compact is die forming, and pressing pressure is 100~600MPa, and green compact size is unlimited.It can also adopt Take isostatic cool pressing method.

The purpose that Fe-SrO powder compacts are positioned over furnace bottom is by step (2)：The substances such as ferrochrome, ferro-boron have than pure iron Low fusion temperature, therefore can preferentially melt and be impregnated into the Fe-SrO powder compacts of bottom so that straight iron powder gradually melts, and Release SrO powder particles.Since the density of SrO is relatively low, about 4.7g/cm³, understand gradually upper emersion melt.It floats in SrO powder Process, by Fe₃C、Cr₃C₂Equal carbide restore to form active Sr elements, and are reacted with C, B, are formed and are similar to Sr (B, C)₆'s Compound.By the metamorphism of Sr, the reticular structure and Needle-shaped boride of distribution along crystal boundary disappear, alloy by primary crystal matrix phase and Eutectic structure forms, and this eutectic structure, which is interted by tiny matrix phase with hard phase, to be formed so that the intensity of alloy and impact Toughness is improved.

The CO gases formed in SrO powder floating, reaction process also have the effect of degasification, slagging-off, to which further purification is molten Body.

If SrO powder is not previously prepared to be positioned over furnace bottom at briquetting, it is easy to float to bath surface, bath surface rapidly Oxygen content is high, and SrO is not easy to be reduced to form active Sr, and loses modification effect.

The Fe₃C、Cr₃C₂Equal carbide are formed by C and Fe element reactions when high carbon ferro-chrome and fusing, due to Fe₃C、 Cr₃C₂The stability of equal carbide at high temperature is not so good as Mo₂C, and the temperature melted is more than 1400 DEG C of reactions described in document 1 Temperature, the partial pressure of CO gases is also extremely low in melt, and the property of Sr and La is much like, therefore similar to document 1, generates and lives The reduction reaction of property Sr can carry out.EDS energy spectrum analysis, which also indicates that, contains Sr elements in casting alloy object phase.

Step (4) is when hardening heat is 950~1060 DEG C, as hardening heat increases, some dissolving of hard phase Into matrix phase so that matrix phase volume fraction increases, while alloying element content also improves in matrix phase, can be formed after quenching The martensitic structure of more high rigidity.Hereby it is ensured that whole hardness and comprehensive performance.

The tissue of Fe-Cr-B-C alloys is cast mainly by hard phase (Fe₂B or M₂B etc.) and matrix phase (α or martensitic phase) Composition.The hardness of alloy depends primarily on the volume ratio of hard phase, i.e. hard phase is higher, and the hardness of material is bigger.But due to hard Matter is mutually excessive, and matrix phase intensity is relatively low, integral hardness can be caused to decline, toughness is insufficient.Therefore, in addition to hard phase and matrix phase Ratio is outside determinant, and the characteristic of matrix phase is also critically important.When hardening heat is less than 950 DEG C, hard phase can be analysed from matrix Go out so that material hardness declines, the reductions such as impact flexibility.Continue raising hardening heat and reach 1100 DEG C, office in casting can be caused Portion's burning so that alloy ductility declines.

The Fe-Cr-B-C alloys that the Sr Modification Manners of the present invention are not limited to, can also be applied to other cast irons and C content are higher Smelting iron and steel is rotten, micronization processes.

The present invention be mainly characterized by directly SrO powder use to be mixed with iron powder, formation powder compact, as Sr elements go bad load Body.Utilize Fe in Fe-Cr-B-C alloy high-temp melts₃C、Cr₃C₂The reduction of equal carbide forms active Sr elements, and with C, B reacts, and is formed and is similar to Sr (B, C)₆Compound, avoid the occurrence of that boride is netted and acicular texture, promote tiny eutectic It organizes the formation of, plays the rotten toughening effect of thinning microstructure.Pass through quenching-temper again so that the volume fraction of matrix phase, Solid solubility and hardness increase, so as to improve the rapport between matrix phase and boron, carbon compound.Ingot casting integral hardness reaches HRC67.4~70.2, impact flexibility reach 10.2~12.8J/cm², bending strength reaches 960~1080MPa.

Description of the drawings

1 cast sturcture of Fig. 1 present examples schemes；

1 casting alloy X-ray diffracting spectrum of Fig. 2 present examples；

The EDS collection of illustrative plates and ingredient of 1 casting matrix phase of Fig. 3 present examples.

Specific implementation mode

The various method of smelting of the present invention, casting method are not limited by following examples, and any right in the present invention is wanted The improvement in range and variation for asking book claimed are all within protection scope of the present invention.

Select high carbon ferro-chrome, chromic carbide iron, crome metal, ferro-boron, ferro-niobium, vanadium iron, ingot iron, straight iron powder, SrO powder, pure Aluminium etc. is raw material, and alloy is configured in the composition range that invention requires.

Embodiment 1. uses iron powder after mixing, to be molded into powder compact with SrO powder.The weight ratio of SrO powder and iron powder Substantially 1:5, that is, form the Fe-SrO mixing briquettings of Fe-14.24wt.%Sr.The carrier to go bad as rare earth Sr.

It is original to select high carbon ferro-chrome, chromic carbide iron, ferro-boron, ferro-niobium, vanadium iron, ingot iron and above-mentioned Fe-SrO mixing briquetting Material, composition range are as follows：Cr:10.0wt.%；B:2.9wt.%；C:0.7wt.%；Nb:0.4wt.%；V:0.2wt.%；Sr: 0.5wt.%；Impurity element control is shown in Table 2.The impurity such as a small amount of Al, Mn, N will not cause alloy property essence to change, therefore not It is listed in Table 2.

After weighing good corresponding raw material according to component requirements proportioning, using induction melting and sand mold die cast.Specific steps For：

Fe-SrO powder compacts are positioned over furnace bottom, are then placed in ferrochrome, crome metal, ferro-boron, ferro-niobium, vanadium iron and pure iron. Fusion temperature is 1600 DEG C；Until completely melted, furnace power is reduced, after melt temperature is down to 1350 DEG C, with dispensing total amount 0.15% fine aluminium deoxidation；Continue heat preservation and stands about 10 minutes.

Ranging from 1300 DEG C of cast temperature.Die sinking temperature is less than 200 DEG C after having cast, and naturally cools to environment temperature.So Casting is put into box stove heat afterwards, heating temperature is 950 DEG C, soaking time 4h.Heat temperature raising speed be no more than 10 DEG C/ min.After heat preservation, casting is quickly entered to 5% brine hardening cooling.It should be stirred continuously in cooling procedure, when quenching is cooling Between >=30min.Then in 200 DEG C of temper 4h, environment temperature is naturally cooled to.

Fig. 1 is casting alloy tissue, and based on Fe primary phases and eutectic phase, wherein eutectic phase is Fe phases and boron, carbon compound The eutectic structure of object；Fig. 2 is the X-ray diffracting spectrum of casting alloy, and display alloy substrate is α-Fe phases, and diffraction maximum is wider, And it is wider nearby at 65 °, therefore be the martensitic phase for having a large amount of Cr solid solutions, carbon, boron compound Fe₂B、Fe₃C and Cr₂₃C₆For base The complex chemical compound of plinth, and show Sr (B, C)₆Compound exists；Fig. 3 is casting alloy matrix phase EDS collection of illustrative plates and analysis As a result, as a result EDS can only show in alloy there are Sr elements in the qualitative analysis of ingredient, illustrate that SrO produces work with melt With, make Sr elements occur alloying, play melt metamorphism.

Gained ingot casting integral hardness reaches HRC68.5, and impact flexibility reaches 12.8J/cm², bending strength reaches 1078MPa。

Embodiment 2. uses iron powder after mixing, to be molded into powder compact with SrO powder.The weight ratio of SrO powder and iron powder Substantially 1:20, that is, form the Fe-SrO mixing briquettings of Fe-4.07wt.%Sr.The carrier to go bad as rare earth Sr.

It is raw material, ingredient to select high carbon ferro-chrome, crome metal, ferro-boron, ferro-niobium, ingot iron and above-mentioned Fe-SrO mixing briquetting Range is as follows：Cr:10.0wt.%；B:2.7wt.%；C:0.7wt.%；Nb:0.5wt.%；Sr:0.05wt.%；Impurity element Control is shown in Table 2.The impurity such as a small amount of Al, Mn, N will not cause alloy property essence to change, therefore unlisted in table 2.

After weighing good corresponding raw material according to component requirements proportioning, vacuum induction melting and the casting of water cooling swage can be used It makes.The specific steps are：

Fe-SrO powder compacts are positioned over furnace bottom, are then placed in ferrochrome, crome metal, ferro-boron, ferro-niobium and pure iron.Fusing temperature Degree is 1500 DEG C；Until completely melted, furnace power is reduced, after melt temperature is down to 1300 DEG C, with dispensing total amount 0.1% Fine aluminium deoxidation；Continue heat preservation and stands about 5 minutes.Ranging from 1250 DEG C of cast temperature.Die sinking temperature will be less than 200 after having cast DEG C, naturally cool to environment temperature.

Then casting is put into box stove heat, heating temperature is 1050 DEG C, soaking time 1h.Heat temperature raising speed No more than 10 DEG C/min.After heat preservation, casting is quickly entered to 15% brine hardening cooling.It should constantly be stirred in cooling procedure It mixes, quenches cooling time >=30min.Then in 250 DEG C of temper 2h, environment temperature is naturally cooled to.

Gained ingot casting integral hardness reaches HRC69.2, and impact flexibility reaches 10.2J/cm², bending strength reaches 960MPa.

Embodiment 3. uses iron powder after mixing, to be molded into powder compact with SrO powder.The weight ratio of SrO powder and iron powder Substantially 1:10, that is, form the Fe-SrO mixing briquettings of Fe-7.77wt.%Sr.The carrier to go bad as rare earth Sr.

It is raw material to select high carbon ferro-chrome, chromic carbide iron, ferro-boron, ferro-niobium, ingot iron and above-mentioned Fe-SrO mixing briquetting, at Divide range as follows：Cr：10.0wt.%；B：2.7wt.%；C:0.8wt.%；Nb:0.6wt.%；Sr:0.3wt.%；Impurity member Element control is shown in Table 2.The impurity such as a small amount of Al, Mn, N will not cause alloy property essence to change, therefore unlisted in table 2.

After good corresponding raw material being weighed according to component requirements proportioning, using induction melting and model casting, the specific steps are：

Fe-SrO powder compacts are positioned over furnace bottom, are then placed in ferrochrome, crome metal, ferro-boron, ferro-niobium, vanadium iron and pure iron. Fusion temperature is 1580 DEG C；Until completely melted, furnace power is reduced, after melt temperature is down to 1320 DEG C, with dispensing total amount 0.12% fine aluminium deoxidation；Continue heat preservation and stands about 8 minutes.Ranging from 1280 DEG C of cast temperature.Die sinking temperature is wanted after having cast Less than 200 DEG C, environment temperature is naturally cooled to.

Then casting is put into box stove heat, heating temperature is 1000 DEG C, soaking time 2h.Heat temperature raising speed No more than 10 DEG C/min.After heat preservation, casting is quickly entered to 10% brine hardening cooling.It should constantly be stirred in cooling procedure It mixes, quenches cooling time >=30min.Then in 220 DEG C of temper 3h, environment temperature is naturally cooled to.

Gained ingot casting integral hardness reaches HRC69.0, and impact flexibility reaches 11.2J/cm², bending strength reaches 984MPa.

Embodiment 4. uses iron powder after mixing, to be molded into powder compact with SrO powder.The weight ratio of SrO powder and iron powder Substantially 1:15, that is, form the Fe-SrO mixing briquettings of Fe-5.34wt.%Sr.The carrier to go bad as rare earth Sr.

It is original to select high carbon ferro-chrome, crome metal, ferro-boron, ferro-niobium, vanadium iron, ingot iron and above-mentioned Fe-SrO mixing briquetting Material, composition range are as follows：Cr：11.0wt.%；B：2.7wt.%；C:0.7wt.%；Nb:0.2wt.%；V:0.4wt.%；Sr: 0.1wt.%；Impurity element control is shown in Table 2.The impurity such as a small amount of Al, Mn, N will not cause alloy property essence to change, therefore not It is listed in Table 2.

After good corresponding raw material being weighed according to component requirements proportioning, using induction melting and sand casting, the specific steps are：

Fe-SrO powder compacts are positioned over furnace bottom, are then placed in ferrochrome, crome metal, ferro-boron, ferro-niobium, vanadium iron and pure iron. Fusion temperature is 1600 DEG C；Until completely melted, furnace power is reduced, after melt temperature is down to 1340 DEG C, with dispensing total amount 0.13% fine aluminium deoxidation；Continue heat preservation and stands about 9 minutes.Ranging from 1280 DEG C of cast temperature.Die sinking temperature is wanted after having cast Less than 200 DEG C, environment temperature is naturally cooled to.

Then casting is put into box stove heat, heating temperature is 1060 DEG C, soaking time 2h.Heat temperature raising speed No more than 10 DEG C/min.After heat preservation, the buck that casting is quickly entered to 5% quenches cooling.It should be stirred continuously in cooling procedure, Quench cooling time >=30min.Then in 220 DEG C of temper 2h, environment temperature is naturally cooled to.

Gained ingot casting integral hardness reaches HRC67.4, and impact flexibility reaches 12.2J/cm², bending strength reaches 1056MPa。

Embodiment 5. uses iron powder after mixing, to be molded into powder compact with SrO powder.The weight ratio of SrO powder and iron powder Substantially 1:12, that is, form the Fe-SrO mixing briquettings of Fe-6.57wt.%Sr.The carrier to go bad as rare earth Sr.

It is original to select high carbon ferro-chrome, chromic carbide iron, ferro-boron, ferro-niobium, vanadium iron, ingot iron and above-mentioned Fe-SrO mixing briquetting Material, composition range are as follows：Cr：10.0wt.%；B：2.6wt.%；C：0.6wt.%；Nb：0.3wt.%；V：0.1wt.%；Sr: 0.2wt.%；Impurity element control is shown in Table 2.The impurity such as a small amount of Al, Mn, N will not cause alloy property essence to change, therefore not It is listed in Table 2.

After weighing good corresponding raw material according to component requirements proportioning, using induction melting and lost foam casting, specific steps It is as follows：

Fe-SrO powder compacts are positioned over furnace bottom, are then placed in ferrochrome, crome metal, ferro-boron, ferro-niobium, vanadium iron and pure iron. Fusion temperature is 1600 DEG C；Until completely melted, furnace power is reduced, after melt temperature is down to 1325 DEG C, with dispensing total amount 0.12% fine aluminium deoxidation；Continue heat preservation and stands about 6 minutes.Ranging from 1285 DEG C of cast temperature.Die sinking temperature is wanted after having cast Less than 200 DEG C, environment temperature is naturally cooled to.

Then casting is put into box stove heat, heating temperature is 980 DEG C, soaking time 3h.Heat temperature raising speed No more than 10 DEG C/min.After heat preservation, the buck that casting is quickly entered to 15% quenches cooling.It should constantly be stirred in cooling procedure It mixes, quenches cooling time >=30min.Then in 220 DEG C of temper 3h, environment temperature is naturally cooled to.

Gained ingot casting integral hardness reaches HRC69.2, and impact flexibility reaches 11.1J/cm², bending strength reaches 1072MPa。

Embodiment 6. uses iron powder after mixing, to be molded into powder compact with SrO powder.The weight ratio of SrO powder and iron powder Substantially 1:8, that is, form the Fe-SrO mixing briquettings of Fe-9.49wt.%Sr.The carrier to go bad as rare earth Sr.

It is raw material to select high carbon ferro-chrome, chromic carbide iron, ferro-boron, ferro-niobium, ingot iron and above-mentioned Fe-SrO mixing briquetting, at Divide range as follows：Cr：10.0wt.%；B：2.6wt.%；C：0.8wt.%；Nb：0.8wt.%；Sr:0.08wt.%；Impurity member Element control is shown in Table 2.The impurity such as a small amount of Al, Mn, N will not cause alloy property essence to change, therefore unlisted in table 2.

It is specific to walk using vacuum induction melting and iron mould casting after weighing good corresponding raw material according to component requirements proportioning It is rapid as follows：

Fe-SrO powder compacts are positioned over furnace bottom, are then placed in ferrochrome, crome metal, ferro-boron, ferro-niobium, vanadium iron and pure iron. Fusion temperature is 1590 DEG C；Until completely melted, furnace power is reduced, after melt temperature is down to 1315 DEG C, with dispensing total amount 0.14% fine aluminium deoxidation；Continue heat preservation and stands about 7 minutes.Ranging from 1290 DEG C of cast temperature.Die sinking temperature is wanted after having cast Less than 200 DEG C, environment temperature is naturally cooled to.

Then casting is put into box stove heat, heating temperature is 1020 DEG C, soaking time 2h.Heat temperature raising speed No more than 10 DEG C/min.After heat preservation, the buck that casting is quickly entered to 10% quenches cooling.It should constantly be stirred in cooling procedure It mixes, quenches cooling time >=30min.Then in 220 DEG C of temper 3h, environment temperature is naturally cooled to.

Gained ingot casting integral hardness reaches HRC68.7, and impact flexibility reaches 12.2J/cm², bending strength reaches 1072MPa。

Embodiment 7. uses iron powder after mixing, to be molded into powder compact with SrO powder.The weight ratio of SrO powder and iron powder Substantially 1:9, that is, form the Fe-SrO mixing briquettings of Fe-8.54wt.%Sr.The carrier to go bad as rare earth Sr.

It is original to select high carbon ferro-chrome, chromic carbide iron, ferro-boron, ferro-niobium, vanadium iron, ingot iron and above-mentioned Fe-SrO mixing briquetting Material, composition range are as follows：Cr：11.0wt.%；B：2.6wt.%；C：0.9wt.%；Nb：0.2wt.%；V：0.2wt.%；Sr: 0.18wt.%；Impurity element control is shown in Table 2.The impurity such as a small amount of Al, Mn, N will not cause alloy property essence to change, therefore It is unlisted in table 2.

After weighing good corresponding raw material according to component requirements proportioning, induction melting and lost foam casting can be used.Specific step It is rapid as follows：

Fe-SrO powder compacts are positioned over furnace bottom, are then placed in ferrochrome, crome metal, ferro-boron, ferro-niobium, vanadium iron and pure iron. Fusion temperature is 1580 DEG C；Until completely melted, furnace power is reduced, after melt temperature is down to 1340 DEG C, with dispensing total amount 0.13% fine aluminium deoxidation；Continue heat preservation and stands about 8 minutes.Ranging from 1280 DEG C of cast temperature.Die sinking temperature is wanted after having cast Less than 200 DEG C, environment temperature is naturally cooled to.

Then casting is put into box stove heat, heating temperature is 1020 DEG C, soaking time 1h.Heat temperature raising speed No more than 10 DEG C/min.After heat preservation, the buck that casting is quickly entered to 15% quenches cooling.It should constantly be stirred in cooling procedure It mixes, quenches cooling time >=30min.Then in 200 DEG C of temper 4h, environment temperature is naturally cooled to.

Gained ingot casting integral hardness reaches HRC69.1, and impact flexibility reaches 11.5J/cm², bending strength reaches 1080MPa。

Embodiment 8. uses iron powder after mixing, to be molded into powder compact with SrO powder.The weight ratio of SrO powder and iron powder Substantially 1:17, that is, form the Fe-SrO mixing briquettings of Fe-4.75wt.%Sr.The carrier to go bad as rare earth Sr.

It is original to select high carbon ferro-chrome, chromic carbide iron, ferro-boron, ferro-niobium, vanadium iron, ingot iron and above-mentioned Fe-SrO mixing briquetting Material, composition range are as follows：Cr：13.0wt.%；B：2.6wt.%；C：0.8wt.%；Nb：0.6wt.%；V：0.4wt.%；Sr: 0.42wt.%；Impurity element control is shown in Table 2.The impurity such as a small amount of Al, Mn, N will not cause alloy property essence to change, therefore It is unlisted in table 2.

After weighing good corresponding raw material according to component requirements proportioning, using induction melting and lost foam casting, specific steps It is as follows：

Fe-SrO powder compacts are positioned over furnace bottom, are then placed in ferrochrome, crome metal, ferro-boron, ferro-niobium, vanadium iron and pure iron. Fusion temperature is 1600 DEG C；Until completely melted, furnace power is reduced, after melt temperature is down to 1320 DEG C, with dispensing total amount 0.12% fine aluminium deoxidation；Continue heat preservation and stands about 6 minutes.Ranging from 1260 DEG C of cast temperature.Die sinking temperature is wanted after having cast Less than 200 DEG C, environment temperature is naturally cooled to.

Then casting is put into box stove heat, heating temperature is 980 DEG C, soaking time 2h.Heat temperature raising speed No more than 10 DEG C/min.After heat preservation, the buck that casting is quickly entered to 10% quenches cooling.It should constantly be stirred in cooling procedure It mixes, quenches cooling time >=30min.Then in 200 DEG C of temper 2h, environment temperature is naturally cooled to.

Gained ingot casting integral hardness reaches HRC70.2, and impact flexibility reaches 11.8J/cm², bending strength reaches 1056MPa。

Casting alloy performance detection prepared by each embodiment is as described below：

1. pair example casting metal carries out hardness test using HR-150A Rockwell hardness machines, load 150Kg makes a call to five It is averaged after point, is listed in table 2.

2. pair example casting metal carries out impact flexibility test using JBS-300B shock machines, range 150J is beaten It is averaged after five samples, is listed in table 2.

3. pair example casting metal material electronics universal testing machine carries out three-point bending resistance experiment, sample size is 2 × 5 × The rectangular specimen of 50mm, span 30mm take the bending strength average value of three same treatment samples to be listed in table 2.

The ingredient of 2 embodiment of table and hardness, impact flexibility and bending strength

Claims (4)

1. a kind of rare earth strontium toughening high hard alloy, it is characterised in that：The mass percentage of each element is Cr：9.0~13.0, B： 2.6~2.9, C：0.7~0.9, Nb：0.4~0.8, V：The content of 0.4~0.8, Mn are less than 0.3, Sr：0.05~0.5, S, P： ≤ 0.01, surplus Fe；The gross mass percentage composition of wherein C, B is：3.3~3.6；C/Cr mass ratioes：0.06~0.08；Nb、V Gross mass percentage composition be：0.5~1.0.

2. casting and the heat treatment method of rare earth strontium toughening high hard alloy as described in claim 1, it is characterised in that including with Lower step：

(1) Fe-SrO powder compacts prepare

After mixing using iron powder and SrO powder, it is molded into powder compact, the weight ratio of SrO powder and iron powder is 1:5~20, shape At the Fe-SrO mixing briquettings of Fe-4.07~14.24%Sr, the carrier to go bad as rare earth Sr；

(2) alloying ingredient, melting and Metamorphism treatment

After weighing good corresponding raw material according to the component requirements proportioning of Fe-Cr-B-C alloys, then add 0.05~0.5%Sr elements It is rotten：Fe-SrO powder compacts are positioned over furnace bottom first, are then placed in ferrochrome, crome metal, ferro-boron, ferro-niobium, vanadium iron and pure iron, Alloy is prepared using induction furnace melting, fusion temperature is 1500~1600 DEG C；Then furnace power is reduced, melt temperature is down to After 1300~1350 DEG C, with the fine aluminium deoxidation of dispensing total amount 0.1~0.15%；Continue heat preservation and stands 5~10 minutes；

(3) it casts

Ranging from 1250~1300 DEG C of cast temperature, designed alloy has deep eutectic ingredient, in common sand casting item Non-equilibrium matrix can be formed under part, by various methods casting and forming, in order to avoid thermal stress-cracking occurs, cast Die sinking temperature will be less than 200 DEG C afterwards, naturally cool to environment temperature；

(4) it is heat-treated

Casting is put into box stove heat, is heated to 950~1060 DEG C, is kept the temperature as 1~4h；Heat temperature raising speed is no more than 10 DEG C/min, after heat preservation, casting is added to 5~15% brine or buck quenching cooling, is stirred continuously, quenches in cooling procedure Fiery cooling time >=30min；Then in 200~250 DEG C of 2~4h of temper, environment temperature is naturally cooled to.

3. casting and the heat treatment method of rare earth strontium toughening high hard alloy as claimed in claim 2, it is characterised in that：Step (1) iron powder is purity >=98.5%, the reduced iron powder or purity >=99.0% of -100 mesh of granularity, the water of -100 mesh of granularity The alloy iron powder of -100 mesh of atomized iron powder or granularity.

4. casting and the heat treatment method of rare earth strontium toughening high hard alloy as claimed in claim 2, it is characterised in that：Step (1) green compact is die forming, and pressing pressure is 100~600MPa, or takes isostatic cool pressing method.