CN106756647A - A kind of high-ductility zirconium-based bulk amorphous alloy without nickel and preparation method thereof without beryllium - Google Patents

Abstract

A kind of high-ductility zirconium-based bulk amorphous alloy without nickel and preparation method thereof without beryllium, the atomic percent of the alloys components is：Zr 38 50%, Hf 2 15%, Cu 20 30%, Fe 5 10%, Al 10 15%, Co 0 5%, Ag 0 5%, Nb 0 5%；Prepared using the method for electric arc melting copper mold.The non-crystaline amorphous metal does not contain the metallic elements such as Be and Ni, improves the biocompatibility of Zr based alloys；With strong amorphous formation ability, Zr base block amorphous alloy of the critical dimension not less than 5mm can be prepared using copper mold casting；With hardness high, and Vickers hardness is all higher than 540Hv；Have>3% plastic deformation ability；With supercooling liquid phase region scope wide, maximum can reach 92K.There is boundless application prospect in biomedical materials fields such as accurate complicated medical zero device, joint prosthesis and the miscellaneous bones of people.

Description

A kind of high-ductility zirconium-based bulk amorphous alloy without nickel and preparation method thereof without beryllium

Technical field

The invention belongs to block amorphous alloy, and in particular to a kind of high-ductility Zr matrix bodies without metallic element Be and Ni Non-crystaline amorphous metal, its critical dimension is not less than 5mm, and plastic deformation ability is not less than 3%.

Technical background

Amorphous alloy (glassy metal) is that what is occurred in recent years be expected to the metal as 26S Proteasome Structure and Function application of new generation Material.Different with the arrangement that atom in traditional metal materials has long-range order, the atom of amorphous alloy is random arrangement, And without long-range order, in the absence of defects such as crystal boundary, dislocations in its microstructure, therefore amorphous alloy shows to pass High intensity, high rigidity, high elastic limit, low modulus and the excellent performance such as corrosion-resistant that system crystal alloy cannot be realized.Remove Outside this, non-crystaline amorphous metal shows stickiness flowing very high in supercooling liquid phase region, shows superplastic deformation feature.Amorphous is closed This characteristic of gold can make it accurately compressing in supercooling liquid phase region.These superior performances cause amorphous alloy There is very wide application prospect in many fields.

In recent years, researcher obtains in Zr bases, Pd bases, La bases, Mg bases, Fe bases, Ni bases etc. more than ten plant alloy system Bulk amorphous materials.Compared with the alloy of other systems, Zr base block amorphous alloys are because of its excellent amorphous formation ability Receive much concern.The Zr such as Zr-Ti-Cu-Ni-Be, Zr-Ti-Cu-Ni-Al, Zr-Cu-Ni-Al, Zr-Cu-Al-Be of recent development Non-crystaline amorphous metal has high intensity (2GPa), high tenacity (K_IC~60MPam^1/2), high elastic limit (2%) and low elastic modulus (50- The characteristic such as 100GPa).However, in the strong Zr base block amorphous alloy systems of amorphous formation ability, to improve amorphous formation energy Power, Be or Ni are often indispensable in the alloy system.But containing Be and reach material after elastic limit unexpected disaster occurs Property fracture.As can be seen here, the biocompatibility and brittleness at room temperature of Zr base noncrystal alloys limit its practical application, therefore, it is necessary to New high-ductility Zr base noncrystal alloy without Be and Ni element of the exploitation with strong amorphous formation ability, to widen bulk amorphous alloy Application of the alloy in biomedical sector.

The content of the invention

The present invention develops a kind of high-ductility zirconium-based bulk amorphous alloy without nickel without beryllium, it is therefore intended that not only remove to people Body has a Be and Ni elements of toxic and side effect, good biocompatibility, and with strong amorphous formation ability and plastic deformation ability, To obtain non-crystaline amorphous metal in security, processability and all good resultant effect of the aspect of economy three.

The technical scheme is that：A kind of high-ductility zirconium-based bulk amorphous alloy without nickel without beryllium, the non-crystaline amorphous metal Atomic percent expresses Zr_aHf_bCu_cFe_dAl_eL_f, and each component：38≤a≤50,2≤b≤15,20≤c≤30,5≤d≤10, 10≤e≤15,0≤f≤5, and a+b+c+d+e+f=100, wherein L be J or K in one or more, J be Mn, Co, Zn, At least one in Au, Ag, Pd, Pt, Cd, Ru, Re, Os, Ir；K is at least one in V, Ta, Nb, Cr, W, Mo, Y.

Further when L is Ag, a=39, b=14, c=26, d=8, e=12, f=1, Zr₃₉Hf₁₄Cu₂₆Fe₈Al₁₂Ag₁Close Gold can form large block amorphous critical dimension not less than 5mm, and Vickers hardness is not less than 558Hv, and plastic strain is not less than 3%, And supercooled liquid phase sector width is not less than 53K.

Further, when L be Co, two kinds of elements of Nb, a=38, b=14, c=26, d=8, e=12, f=2, Zr₃₈Hf₁₄Cu₂₆Fe₈Al₁₂(CoNb)₂Alloy can form large block amorphous critical dimension not less than 5mm, and Vickers hardness is not less than 572Hv, plastic strain is not less than 4%, and supercooled liquid phase sector width is not less than 64K.

Further, the atomic percent expression formula of the non-crystaline amorphous metal is Zr_aHf_bCu_cFe_dAl_e, and each component：38≤a≤ 50,2≤b≤15,20≤c≤30,5≤d≤10,10≤e≤15, and a+b+c+d+e=100.

Work as a=40, b=14, c=26, d=8, during e=12, Zr₄₀Hf₁₄Cu₂₆Fe₈Al₁₂Alloy can form large block amorphous Critical dimension be not less than 5mm, Vickers hardness is not less than 551Hv, and plastic strain is not less than 5%, and supercooled liquid phase sector width is not Less than 91K.

It is a further object of the present invention to provide the preparation method of above-mentioned alloy, following steps are specifically included：

Metal Zr, Hf, Cu, Fe, Al, Ag, Nb of the step 1. with purity as 99.0wt%-99.99wt%, Co is according to above-mentioned The atomic percent of expression formula is converted into quality；

Step 2. removes the raw material surface scale in step 1, and cleans raw material using industrial alcohol, and by respective institute Quality is needed to weigh；

Raw material after step 3. processes step 2 is deposited in non-consumable arc furnace or cold crucible by fusing point sequence Melting is carried out in shower furnace.After the abundant melting of foundry alloy is uniform, using suction pouring equipment, alloy is inhaled and casts onto different size Water cooled copper mould in, obtain amorphous alloy material.

The beneficial effects of the present invention are：

(1) alloy system does not contain Be the and Ni elements being harmful to organism, and biocompatibility is excellent.

(2) alloy system has strong amorphous formation ability, the non-crystaline amorphous metal prepared by the method for copper mold, and its is critical Size is not less than 5mm, can meet the size requirement of non-crystaline amorphous metal manufacture field.

(3) alloy has good plastic deformation ability, and plastic strain is more than 3%, maximum reachable 18% during its fracture.

(4) alloy has hardness high, and its Vickers hardness is above 540Hv.

(5) alloy has critical cooling rate wide, is not less than 53K, and highest can reach 92K, be conducive to Superplastic forming is processed.

The XRD of Zr-Hf-Cu-Fe-Al Al-Cu-Zn block amorphous alloys prepared by Fig. 1 present examples 1；

The compressive stress strain curve of Zr-Hf-Cu-Fe-Al Al-Cu-Zn block amorphous alloys prepared by Fig. 2 present examples 1.

Zr-Hf-Cu-Fe-Al-L1 and Zr-Hf-Cu-Fe-Al-L2 prepared by Fig. 3 present examples 2,3 is series massive amorphous The XRD of alloy.

The Vickers hardness of Zr-Hf-Cu-Fe-Al-L1 Al-Cu-Zn block amorphous alloys prepared by Fig. 4 present examples 2.

Specific embodiment

Technical scheme is described further with reference to specific implementation example.

Embodiment 1：The preparation of Zr-Hf-Cu-Fe-Al Al-Cu-Zn block amorphous alloys and its performance

Design Zr_aHf_bCu₂₆Fe₈Al₁₂Amorphous alloy component, wherein a=46,44,42,40；B=54-a.Obtaining composition is Zr₄₆Hf₈Cu₂₆Fe₈Al₁₂、Zr₄₄Hf₁₀Cu₂₆Fe₈Al₁₂、Zr₄₂Hf₁₂Cu₂₆Fe₈Al₁₂And Zr₄₀Hf₁₄Cu₂₆Fe₈Al₁₂Alloy.

As shown in figure 1, Zr₄₆Hf₈Cu₂₆Fe₈Al₁₂、Zr₄₄Hf₁₀Cu₂₆Fe₈Al₁₂、Zr₄₂Hf₁₂Cu₂₆Fe₈Al₁₂With Zr₄₀Hf₁₄Cu₂₆Fe₈Al₁₂The XRD spectrum of alloy 5mm samples, collection of illustrative plates only has the typical diffusing scattering peak of amorphous, shows the alloy of 5mm Amorphous phase is, the alloy has strong amorphous formation ability.

The compression stress strain curve of alloy is as shown in Figure 2.As can be seen that alloy does not have after yield strength is reached There is calamitous fracture immediately, but by one section of plastic deformation (>5%), wherein Zr₄₀Hf₁₄Cu₂₆Fe₈Al₁₂The plasticity of alloy Deformability is maximum, and plastic deformation reaches 18% before reachable fracture, shows the block amorphous alloy of the alloy system and has well Plastic deformation ability.Related plastic deformation ability force data is referring to table 1.

Embodiment 2：The preparation of Zr-Hf-Cu-Fe-Al-L1 Al-Cu-Zn block amorphous alloys and its performance

Design Zr_aHf_bCu₂₆Fe₈Al₁₂L1_gAmorphous alloy component, wherein L1 are Ag, Co, the one kind in Nb, a=39；B= 14；G=1 or a=39,46；B=6；G=2.Preparation alloying component is Zr₄₆Cu₂₆Fe₈Al₁₂Hf₆Ag₂, Zr₄₆Cu₂₆Fe₈Al₁₂Hf₆Co₂, Zr₄₆Cu₂₆Fe₈Al₁₂Hf₆Nb₂, Zr₃₉Cu₂₆Fe₈Al₁₂Hf₁₄Ag₁With Zr₃₉Cu₂₆Fe₈Al₁₂Hf₁₄Nb₁。

Fig. 3 show Zr_aHf_bCu₂₆Fe₈Al₁₂L1_gIt is the XRD spectrum of alloy 5mm samples, in the XRD spectrum of 5mm samples only There is the typical diffusing scattering peak of amorphous, show that the alloy of 5mm is amorphous phase, the alloy has strong amorphous formation ability.

It is illustrated in figure 4 Zr_aHf_bCu₂₆Fe₈Al₁₂L1_gIt is alloy Vickers hardness, the hardness of non-crystaline amorphous metal is all higher than 550Hv, Wherein hardness number highest Zr₃₉Cu₂₆Fe₈Al₁₂Hf₁₄Nb₁Alloy reaches 573Hv.Related hardness number is referring to table 1.

Embodiment 3：Two kinds in the preparation of Zr-Hf-Cu-Fe-Al-L2 Al-Cu-Zn block amorphous alloys and its performance, a=38；b =14；G=2 or a=46；B=6；The atomic fraction of two kinds of elements in g=2, L2 is identical.Preparing alloying component is Zr₄₆Cu₂₆Fe₈Al₁₂Hf₆Nb₁Co₁And Zr₃₈Cu₂₆Fe₈Al₁₂Hf₁₄Nb₁Ag₁。

Zr in example three_aHf_bCu₂₆Fe₈Al₁₂L2_gThe XRD spectrum of alloy 5mm samples is as shown in figure 3, wherein there was only amorphous allusion quotation The diffusing scattering peak of type, shows that the alloy of 5mm is amorphous phase, and the alloy has strong amorphous formation ability.

Table 1：It is of the invention a kind of without compositions of the Be without Ni high-ductility Zr base large amorphous alloys, mechanical property and thermodynamics Parameter

Claims (8)

1. a kind of high-ductility zirconium-based bulk amorphous alloy without nickel without beryllium, it is characterised in that the atomic percent of the non-crystaline amorphous metal Expression Zr_aHf_bCu_cFe_dAl_eL_f, and the content of each component is：38≤a≤50,2≤b≤15,20≤c≤30,5≤d≤10,10 ≤ e≤15,0≤f≤5, and a+b+c+d+e+f=100, wherein L be J or K in one or more, J be Mn, Co, Zn, Au, At least one in Ag, Pd, Pt, Cd, Ru, Re, Os, Ir；K is at least one in V, Ta, Nb, Cr, W, Mo, Y.

2. zirconium-based bulk amorphous alloy according to claim 1, it is characterised in that the atomic percent table of the non-crystaline amorphous metal It is Zr up to formula_aHf_bCu_cFe_dAl_e, and the content of each component is：38≤a≤50,2≤b≤15,20≤c≤30,5≤d≤10, 10≤e≤15, and a+b+c+d+e=100.

3. zirconium-based bulk amorphous alloy according to claim 1, it is characterised in that L is Co, two kinds of elements of Nb, a=38, b= 14, c=26, d=8, e=12, f=2, Zr₃₈Hf₁₄Cu₂₆Fe₈Al₁₂(CoNb)₂Alloy can form large block amorphous critical dimension not Less than 5mm, Vickers hardness is not less than 572Hv, and plastic strain is not less than 4%, and supercooled liquid phase sector width is not less than 64K.

4. zirconium-based bulk amorphous alloy according to claim 2, it is characterised in that the non-crystaline amorphous metal a=40, b=14, c= 26, d=8, e=12, Zr₄₀Hf₁₄Cu₂₆Fe₈Al₁₂Alloy can form large block amorphous critical dimension not less than 5mm, Vickers hardness 551Hv is not less than, plastic strain is not less than 5%, and supercooled liquid phase sector width is not less than 91K.

5. zirconium-based bulk amorphous alloy according to claim 1, it is characterised in that the non-crystaline amorphous metal：L is Ag, a=39, b= 14, c=26, d=8, e=12, f=1, Zr₃₉Hf₁₄Cu₂₆Fe₈Al₁₂Ag₁；Alloy can form large block amorphous critical dimension and be not less than 5mm, Vickers hardness is not less than 558Hv, and plastic strain is not less than 3%, and supercooled liquid phase sector width is not less than 53K.

6. a kind of method for preparing the zirconium-based bulk amorphous alloy as described in any in claim 1-5, it is characterised in that specific Comprise the following steps：

Raw metal metal of the step 1. with purity as 99.0wt%-99.99wt% is converted into according to the atomic percent of expression formula Quality；

Step 2. removes the raw metal surface scale in step 1, and cleans raw material using industrial alcohol, and by respective institute Quality is needed to weigh；

Raw metal after step 3. processes step 2 is deposited in non-consumable arc furnace or cold crucible by fusing point sequence Melting is carried out in shower furnace, after the abundant melting of foundry alloy is uniform, using suction pouring equipment, alloy is inhaled and is cast onto different size Water cooled copper mould in, obtain zirconium-based bulk amorphous alloy material.

7. method according to claim 6, it is characterised in that the amorphous alloy material enough forms large block amorphous critical Size is not less than 5mm, and Vickers hardness is above 540Hv.

8. the zirconium-based bulk amorphous alloy material that a kind of method as claimed in claim 6 is prepared is accurate complicated medical zero The biomedical materials field applications such as device, joint prosthesis and the miscellaneous bone of people.