CN106001566A

CN106001566A - High-strength high-entropy alloy NbMoTaWV and preparation method thereof

Info

Publication number: CN106001566A
Application number: CN201610508519.XA
Authority: CN
Inventors: 龙雁; 郭文晶; 李小珍
Original assignee: South China University of Technology SCUT
Current assignee: South China University of Technology SCUT
Priority date: 2016-06-29
Filing date: 2016-06-29
Publication date: 2016-10-12

Abstract

The invention belongs to the technical field of high-entropy alloy and discloses high-strength high-entropy alloy NbMoTaWV and a preparation method thereof. The method is a forming method implemented by combining the technologies of mechanical alloying, spark plasma sintering and the like. Compared with a traditional melting and casting method with a vacuum arc furnace, the method is advantageous in that operation is easier and more convenient, the temperature needed for forming is substantially decreased, sintering time is short, and block materials with uniform ingredients and nearly full compactness can be obtained through one-time sintering; besides, dendritic segregation of the alloy is eliminated, grains are refined obviously, and the density of the obtained alloy is 11.6-11.9 g/cm<3>; according to the microscopic structure of the alloy, granular second phases are distributed in an isometric crystal substrate in a dispersed mode, and both the substrate and the second phases are body-centered cubic (BCC) structure solid solutions; according to the optimal compression mechanical properties at room temperature, sigma(0.2) is 2770 MPa, and sigma(bc) is 3661 MPa; epsilon(p) during fracture is 12.5%, room-temperature strength and plasticity are remarkably promoted, and the alloy has quite excellent comprehensive mechanical properties.

Description

A kind of high intensity high-entropy alloy NbMoTaWV and preparation method thereof

Technical field

The invention belongs to technical field of high-entropy, particularly to a kind of high intensity high-entropy alloy NbMoTaWV and preparation method thereof.

Background technology

The high-entropy alloy that last century, the nineties proposed is a kind of novel conjunction breaking through conventional alloys design concept Gold.The essential element number of this kind of alloy is typically greater than five, and the atomic percent of every kind of element is roughly the same, And do not have the atomic percent of a kind of constituent element can become unique essential element more than 50%.Due to alloy In process of setting, there is high entropic effect, although therefore essential element is more, but this kind of alloy not only will not generate (such as: body-centered cubic (BCC), the intermetallic compound of various complexity, define simple solid solution phase on the contrary Face-centered cubic (FCC) or close-packed hexagonal (HCP)).Compared with conventional alloys, the high-entropy alloy of many pivots There is the excellent properties such as high intensity, high rigidity, wear-resisting, corrosion-resistant and high temperature resistance softening.

The selection of high-entropy alloy element system focuses primarily upon late transition metal, as Cr, Mn, Fe, Co, Ni, Cu etc..2011, Senkov O.N. et al. first prepared by fusion casting with Nb, Mo, Ta, W, V refractory metal is the novel high-entropy alloy of essential element, and its microscopic structure is single phase BCC structure, Compression yield strength under room temperature is 1246MPa, and greatest compressive strength is 1270MPa, moulding during fracture Property dependent variable be 1.7%, and under 600～1600 DEG C of high temperature, remain to keep higher intensity, therefore should Alloy very likely becomes high temperature alloy, cutter, mould and the high-abrasive material of a new generation, is used widely.

At present, the preparation of high-entropy alloy is based on vacuum arc furnace ignition fusion casting.But, NbMoTaWV is high The preparation process of fusing point high-entropy alloy but exists a series of difficult point: owing to the fusing point of alloy is higher (about 2673 DEG C), traditional fusion casting must overcome the difficult problem that heating-up temperature is high, and technology difficulty is bigger；In order to Make composition uniform, need through repeated revert-melt；Meanwhile, the NbMoTaWV alloy grain that prepared by fusion casting The thickest the longest dendrite, average grain size is about 80 μm；In liquation process of setting unavoidably Ground can produce the uneven components phenomenons such as dendritic segregation, and the performance of final products all can be produced bigger by these Impact.

In recent years, beginning with scholar uses powder metallurgic method to prepare high-entropy alloy.Compared to traditional fusion casting, Powder metallurgic method technique is simple, and the alloy grain prepared is more tiny, tissue is more uniform, resultant force Learn the performance alloy that even more than tradition fusion casting is prepared.Such as: use mechanical alloying and electric discharge etc. from The Al that sub-sintering process is prepared_0.6CoNiFeTi_0.4Compression yield strength and the fracture strength of alloy respectively reach 2732MPa and 3172MPa, amount of plastic deformation has reached 10.1%, shows good comprehensive mechanical property Energy (Materials Science&Engineering A, 565 (2013): 439 444).But, use powder End metallurgy method is prepared the research of high-entropy alloy and is also not used for preparation also in starting stage, the method NbMoTaWV high-melting-point high-entropy alloy.

The most extremely limited about the document of high-melting-point high-entropy alloy, high-melting-point high-entropy alloy NbMoTaWV Preparation method be also only limitted to arc cast method.In order to improve tissue and the performance of such alloy, reduce simultaneously Processing temperature required, simplify preparation technology, the present invention uses the method for powder metallurgy to prepare NbMoTaWV Alloy.The present invention, for developing the technology of preparing of high-entropy alloy, improves the mechanical property of high-entropy alloy, promotes Tool is all of great significance by research and the application of high-entropy alloy.

Summary of the invention

In order to overcome the shortcoming of above-mentioned prior art with not enough, the primary and foremost purpose of the present invention is to provide a kind of high The preparation method of intensity high-entropy alloy NbMoTaWV.The inventive method first uses mechanical alloying to prepare The alloy powder of single-phase body-centered cubic (BCC) structure, recycling discharge plasma sintering (SPS) is carried out Sintering, obtains block materials, by optimizing technique, it is achieved near-net-shape, it is thus achieved that even tissue, crystal grain are thin Little, there is the block materials of higher-strength and plasticity.

Another object of the present invention is the high intensity high-entropy alloy NbMoTaWV providing said method to prepare.

The purpose of the present invention is realized by following proposal:

A kind of preparation method of high intensity high-entropy alloy NbMoTaWV, the method use mechanical alloying and The manufacturing process that discharge plasma sintering technique combines, is specially and uses mechanical alloying to prepare single-phase The NbMoTaWV high-entropy alloy powder of BCC structure, recycling discharge plasma sintering technique is to above-mentioned powder End is sintered, and obtains high intensity high-entropy alloy NbMoTaWV block materials.

More specifically comprise the steps and process conditions:

Step one: use mechanical alloying method to prepare NbMoTaWV high-entropy alloy powder

The mixing of Nb, Mo, Ta, W, V elemental powders is carried out high-energy ball milling, obtains single-phase BCC knot The NbMoTaWV alloy powder of structure；

Step 2: discharge plasma sintering

Using the alloy powder that discharge plasma sintering stove sintering step one obtains, its process conditions are as follows:

Agglomerating plant: discharge plasma sintering system

Sintering current type: DC pulse current

Sintering temperature: 1300～1600 DEG C

Temperature retention time: 5～20min

Sintering pressure: 30～50MPa

Heating rate: 50～200 DEG C/min

Sintered acquisition NbMoTaWV high intensity high-entropy alloy block materials.

The ball grinder used in ma process described in step one and the material of abrading-ball are the most stainless Steel or hard alloy, the process conditions of described ball milling are: ratio of grinding media to material is 5:1～14:1, and rotating speed is 100～300 R/min, Ball-milling Time is 10～80h.

In step one, the amount of Nb, Mo, Ta, W, V elemental powders used such as is preferably at the atomic ratio, it is possible to Select non-atomic ratio of Denging.

Mixed-powder in step one, in Process During High Energy Ball Milling, gradually realizes alloying, eventually forms single-phase The alloy powder of BCC structure, now, alloying process completes, and takes out NbMoTaWV high-entropy alloy powder End is for follow-up sintering.

Mechanical milling process in step one is preferably carried out under inert gas shielding.

The present invention provides the NbMoTaWV high intensity high-entropy alloy block material that a kind of said method prepares Material, density is 11.6～11.9g/cm³, its microscopic structure is that in equiax crystal matrix, Dispersed precipitate graininess Second phase, wherein matrix and the second phase are BCC structure solid solution, and the more W of matrix enrichment, Mo, Nb, its average grain size < 6 μm；And Ta, V that the second phase enrichment is more, its average grain size < 1 μm。

The present invention, relative to prior art, has such advantages as and beneficial effect:

(1) prepared by the method that the present invention uses mechanical alloying and discharge plasma sintering to combine NbMoTaWV high-entropy alloy, forming technology is easier than traditional vacuum arc furnace ignition fusion casting operation, Temperature needed for shaping is greatly lowered (being reduced to≤1600 DEG C from >=2673 DEG C), and sintering time is short, and one Secondary sintering can obtain the uniform and near fully dense block materials of composition, and can realize near-net-shape.Use Present invention process simplifies, and practicality is good, and significantly reduces energy consumption, therefore has good development prospect.

(2) this invention removes the large dendritic crystal tissue in casting high-entropy alloy NbMoTaWV, matrix Structural transformation is tiny equiax crystal, so that average grain size reduces, composition is more uniform, Jin Erti The intensity of high material and plasticity, promote research and the application of high intensity high-entropy alloy.

(3) the optimal mechanical property under the high intensity high-entropy alloy NbMoTaWV room temperature that prepared by the present invention For: compression yield strength σ_0.2=2770MPa, maximum compressive strength σ_bc=3661MPa, moulding during fracture Property dependent variable ε_p=12.5%, compared with the similar alloy that fusion casting obtains, strong room temperature is greatly improved On the basis of degree, temperature-room type plasticity is also obviously improved, thus improves the comprehensive mechanical property of alloy.

Detailed description of the invention

Below in conjunction with embodiment, the present invention is described in further detail, but embodiments of the present invention do not limit In this.

Embodiment 1

The preparation method of a kind of high intensity high-entropy alloy NbMoTaWV material uses mechanical alloying and electric discharge The manufacturing process that plasma sintering technique combines, it comprises the steps and process conditions:

(1) by waiting atomic ratio to weigh each 20at.% of Nb, Mo, Ta, W, V elemental powders, and mix Uniformly.

(2) mixed-powder and abrading-ball are added in the ball grinder of planetary high-energy ball mill and carry out ball milling, tank The material of body material and abrading-ball is hard alloy, evacuation fill high-purity argon gas (99.99%) in ball grinder As protective atmosphere.Along with the prolongation of Ball-milling Time, mixed-powder is done step-by-step alloying, by multiple simple substance The mixed-powder of powder is changed into the alloy powder with single phase BCC structure, meanwhile, the crystalline substance within powder Grain constantly refinement.The ratio of grinding media to material used in Process During High Energy Ball Milling is 10:1, and rotating speed is 300r/min, ball milling Time is 10h.

Step 2: discharge plasma sintering

Using the alloy powder in discharge plasma sintering stove sintering step one, its process conditions are as follows:

Agglomerating plant: discharge plasma sintering system

Sintering current type: DC pulse current

Sintering temperature: 1500 DEG C

Temperature retention time: 10min

Sintering pressure: 30MPa

Heating rate: 100 DEG C/min

After the present embodiment sinters, the microscopic structure of NbMoTaWV high-entropy alloy is turned by BCC homogeneous structure Becoming the line and staff control of two kinds of BCC phases, graininess second phase of precipitation is uniformly distributed in equiax crystal matrix, The average grain size of matrix is 2.7 μm；The average grain size of the second phase is 0.5 μm, shared volume Percentage ratio is about 13.8%.The density of high-entropy alloy sintered material is 11.6g/cm³, compression yield under room temperature Intensity σ_0.2Reach 2770MPa, maximum compressive strength σ_bcReach 3661MPa, plastic strain during fracture Amount ε_pReaching 12.5%, microhardness is 774Hv.

Embodiment 2

(2) mixed-powder and abrading-ball are added in the ball grinder of planetary high-energy ball mill and carry out ball milling, tank The material of body material and abrading-ball is rustless steel, evacuation fill high-purity argon gas (99.99%) in ball grinder As protective atmosphere.Along with the prolongation of Ball-milling Time, mixed-powder is done step-by-step alloying, by multiple simple substance The mixed-powder of powder is changed into the alloy powder with single phase BCC structure, the simultaneously crystal grain within powder Constantly refinement.The ratio of grinding media to material used in Process During High Energy Ball Milling is 5:1, and rotating speed is 250r/min, Ball-milling Time For 80h.

Step 2: discharge plasma sintering

Agglomerating plant: discharge plasma sintering system

Sintering current type: DC pulse current

Sintering temperature: 1600 DEG C

Temperature retention time: 5min

Sintering pressure: 30MPa

Heating rate: 200 DEG C/min

After the present embodiment sinters, the microscopic structure of NbMoTaWV high-entropy alloy is turned by BCC homogeneous structure Becoming the line and staff control of two kinds of BCC phases, graininess second phase of precipitation is uniformly distributed in equiax crystal matrix, The average grain size of matrix is 5.2 μm, and the average grain size of the second phase is 0.7 μm, shared volume Percentage ratio is about 19.9%.The density of alloy is 11.6g/cm³, maximum compressive strength σ under room temperature_bcFor 2059MPa, microhardness is 744Hv.

Embodiment 3

(2) mixed-powder and abrading-ball are added in the ball grinder of planetary high-energy ball mill and carry out ball milling, tank The material of body material and abrading-ball is rustless steel, evacuation fill high-purity argon gas (99.99%) in ball grinder As protective atmosphere.Along with the prolongation of Ball-milling Time, mixed-powder is done step-by-step alloying, by multiple simple substance The mixed-powder of powder is changed into the alloy powder with single phase BCC structure, the simultaneously crystal grain within powder Constantly refinement.The ratio of grinding media to material used in Process During High Energy Ball Milling is 14:1, and rotating speed is 100r/min, during ball milling Between be 60h.

Step 2: discharge plasma sintering

Agglomerating plant: discharge plasma sintering system

Sintering current type: DC pulse current

Sintering temperature: 1300 DEG C

Temperature retention time: 15min

Sintering pressure: 50MPa

Heating rate: 50 DEG C/min

After the present embodiment sinters, the microscopic structure of NbMoTaWV high-entropy alloy is turned by BCC homogeneous structure Becoming the line and staff control of two kinds of BCC phases, graininess second phase of precipitation is uniformly distributed in equiax crystal matrix, Matrix average grain size is 0.7 μm；The average grain size of the second phase is 0.2 μm, shared volume hundred Proportion by subtraction is about 5.1%.The density of alloy is 11.8g/cm³, maximum compressive strength σ under room temperature_bcIt is 2248 MPa, microhardness is 851Hv.

Embodiment 4

(2) mixed-powder and abrading-ball are added in the ball grinder of planetary high-energy ball mill and carry out ball milling, tank The material of body material and abrading-ball is rustless steel, evacuation fill high-purity argon gas (99.99%) in ball grinder As protective atmosphere.Along with the prolongation of Ball-milling Time, mixed-powder is done step-by-step alloying, by multiple simple substance The mixed-powder of powder is changed into the alloy powder with single phase BCC structure, meanwhile, the crystalline substance within powder Grain constantly refinement.The ratio of grinding media to material used in Process During High Energy Ball Milling is 8:1, and rotating speed is 200r/min, during ball milling Between be 40h.

Step 2: discharge plasma sintering

Agglomerating plant: discharge plasma sintering system

Sintering current type: DC pulse current

Sintering temperature: 1400 DEG C

Temperature retention time: 20min

Sintering pressure: 40MPa

Heating rate: 100 DEG C/min

After the present embodiment sinters, the microscopic structure of NbMoTaWV high-entropy alloy is turned by BCC homogeneous structure Becoming the line and staff control of two kinds of BCC phases, graininess second phase of precipitation is uniformly distributed in equiax crystal matrix, Matrix average grain size is 1.0 μm；The average grain size of the second phase is 0.4 μm, shared volume hundred Proportion by subtraction is about 12.4%.The density of alloy is 11.9g/cm³, maximum compressive strength σ under room temperature_bcIt is 2639 MPa, microhardness is 802Hv.

Above-described embodiment is the present invention preferably embodiment, but embodiments of the present invention are not by above-mentioned reality Execute the restriction of example, the change made under other any spirit without departing from the present invention and principle, modification, Substitute, combine, simplify, all should be the substitute mode of equivalence, within being included in protection scope of the present invention.

Claims

1. the preparation method of a high intensity high-entropy alloy NbMoTaWV, it is characterised in that the method is adopted The manufacturing process combined with mechanical alloying and discharge plasma sintering technique.

The preparation method of high intensity high-entropy alloy NbMoTaWV the most according to claim 1, its It is characterised by that the method is specially the NbMoTaWV using mechanical alloying method to prepare single phase BCC structure Alloy powder, described alloy powder is sintered by recycling discharge plasma sintering technique, obtains high intensity High-entropy alloy NbMoTaWV block materials.

The preparation method of high intensity high-entropy alloy NbMoTaWV the most according to claim 1, its It is characterised by specifically including following steps and process conditions thereof:

Step 2: discharge plasma sintering

Agglomerating plant: discharge plasma sintering system

Sintering current type: DC pulse current

Sintering temperature: 1300～1600 DEG C

Temperature retention time: 5～20min

Sintering pressure: 30～50MPa

Heating rate: 50～200 DEG C/min

The preparation method of high intensity high-entropy alloy NbMoTaWV the most according to claim 3, its Be characterised by: the process conditions of ball milling described in step one are: ratio of grinding media to material is 5:1～14:1, rotating speed be 100～ 300r/min, Ball-milling Time is 10～80h.

The preparation method of high intensity high-entropy alloy NbMoTaWV the most according to claim 3, its It is characterised by: in step one, the amount of Nb, Mo, Ta, W, V elemental powders used such as is at the atomic ratio, or Non-atomic ratio such as grade.

6. a high intensity high-entropy alloy NbMoTaWV, it is characterised in that appoint according to Claims 1 to 5 One described preparation method obtains.

High intensity high-entropy alloy NbMoTaWV the most according to claim 6, it is characterised in that this conjunction The microscopic structure of gold is that in equiax crystal matrix, Dispersed precipitate graininess the second phase, wherein matrix and second mutually equal For BCC structure solid solution, and W, Mo, Nb that matrix enrichment is more, its average grain size < 6 μm； And Ta, V that the second phase enrichment is more, its average grain size < 1 μm.