CN1351192A

CN1351192A - Zr-based amorphous alloy with high formation power

Info

Publication number: CN1351192A
Application number: CN 00123186
Authority: CN
Inventors: 邱克强; 张庆生; 王爱民; 张海峰; 丁炳哲; 胡壮麒
Original assignee: Institute of Metal Research of CAS
Current assignee: Institute of Metal Research of CAS
Priority date: 2000-11-01
Filing date: 2000-11-01
Publication date: 2002-05-29
Anticipated expiration: 2020-11-01
Also published as: CN1131336C

Abstract

An amorphous Zr-based alloy with high shaping power contains Al (5-12 atom%), Cu (15-37), Ni (5-20), Y (2-17) and Zr (48-65). It can be shaped by casting with copper mould. It has lower smelting point and crystallizing temp.

Description

A kind of zirconium-base amorphous alloy of high formation ability

The present invention relates to a kind of composition proportion scope, preparation technology of zirconium-base amorphous alloy of high formation ability.

The composition of inquiring into the amorphous bulk of big formation ability is the focus of current non-crystalline material research.Make up than different elements with atomic radius according to the mixture heat between alloy phase diagram, element, investigate its amorphous formation ability, thereby design bulk amorphous alloy with higher formation ability.Bulk amorphous alloy is because its constructional feature and superior performance, as high yield strength, elastic limit and good anti-corrosion capability and higher fracture toughness property, therefore (W.L.Johnson all is significant on its research is still used theoretically, Bulk Glass-Forming Metallic Alloys:Science andTechnology, MRS BULLETIN, OCTOBER 1999, P42～P56).At the nineties initial stage, the U.S., Japan successively develop Zr-Ti-TM and Zr-Al-TM (TM is a transition metal) bulk amorphous alloys, and are applied at aspect such as military, civilian.Polynary bulk amorphous alloy basic technical features is to have higher reduction glass transformation temperature T _RgOr T _Xg(glass transformation temperature T _gOr crystallization temperature T _xWith liquidus temperature T _LRatio) (A.Inoue, T.Zhang, W.Zhang and A.Takeuchi, Bulk Nd-Fe-Al Amorphous Alloys With Hard Magnetic Properties, MaterialsTransaction, JIM, 37 (1996) 99-108).T _gBe subjected to the influence of composition of alloy less, and T _LBe subjected to the influence of composition bigger, near the alloy the therefore dark eutectic point is owing to have higher T _RgAnd form amorphous easily.Nearest research has further proved this viewpoint (G.J.FAN, W.LOSER, S.ROTHand J.ECHERT, Glass-Forming Ability of RE-Al-TM Alloys (Re=Sm, Y; TM=Fe, Co, Cu.Acta mater, 48 (2000) 3823-3831).

The invention provides a kind of zirconium-base amorphous alloy of high formation ability, it is characterized in that alloy is by following element and unavoidable impurities composed atom per-cent:

Al 5～12％

Cu 15～37％

Ni 5～20％

Y 2～17％

Zr 48～65％。

Can also contain Ti 0.1～15% atom in the alloy of the present invention; Impurity element oxygen preferably defines and is O ₂＜500ppm.

The present invention designs by composition, makes zirconium-base amorphous eutectic point reduce greatly, adopts ordinary copper die cast method can form the amorphous bulk of cm magnitude.

Mother alloy of the present invention can adopt arc melting also can adopt induction melting.Reflow process during preparation generally adopts induction melting.The preparation method can adopt and get rid of band, common copper mold casting, suction casting (suction casting), die casting (die casting), jet moulding (spray casting.) and water quenching (water quenching) prepares.Get rid of band and be suitable for the little composition of amorphous formation ability, other method is suitable for the big amorphous component of formation ability.The vacuum tightness of equipment is not less than 8 * 10 in the preparation process ^-3Pa, argon shield pressure are 300～500mbar.

The present invention has following advantage:

1, certain composition proportion can form amorphous bulk.

2, do not contain poisonous element beryllium.

3, formation ability is not less than existing zirconium-base amorphous alloy.

Below by embodiment in detail the present invention is described in detail.

Embodiment 1

1 adopts purity greater than 99.9% raw metal, adopts the arc melting mother alloy, adopts induction heating copper mold castmethod cast Zr then _56.5Cu ₁₉Al _8.5Ni ₈Ti ₄Y ₄Non-crystaline amorphous metal, T ₁Be 748K, T _xBe 650K, can be made into the amorphous bulk of φ 6 * 70.

Embodiment 2

Adopt purity greater than 99.9% raw material, adopt the arc melting mother alloy, utilize induction heating cast Zr then _54.5Cu ₁₉Al _8.5Ni ₈Ti ₄Y ₆Non-crystaline amorphous metal, T ₁Be 730K, T _xBe 640K, can be made into the amorphous bulk of φ 8 * 70.

Embodiment 3

Adopt purity greater than 99.9 raw material, adopt the arc melting mother alloy, utilize induction heating cast Zr then ₄₂Cu ₂₇Ni ₁₀Ti ₅Y ₁₅Non-crystaline amorphous metal can be made into the amorphous bulk of φ 3 * 50.

Embodiment 4

Adopt purity greater than 99.9 raw material, adopt the arc melting mother alloy, utilize induction heating cast Zr then ₅₄Cu ₂₅Ni ₈Y ₁₃Non-crystaline amorphous metal can be made into the amorphous bulk of φ 3 * 50.

Comparative example 1

Zr _41.2Ti _13.8Cu _12.5Ni ₁₀Be _22.5Non-crystaline amorphous metal liquidus line T ₁(top temperature) is 937K, T _xAbout 740K (Y.J.Kim, R.Busch, and W.L.Johnson, Metallic Glass Formation inHighly Undercooled Zr _41.2Ti _13.8Cu _12.5Ni ₁₀Be _22.5During Containerless ElectrostaticLevitation Processing, Appl.Phys.Lett.65 (1994) 2136-2138), and embodiment 2 alloy Zr _54.5Cu ₁₉Al _8.5Ni ₈Ti ₄Y ₆T ₁Be 730K, T _xBe 640K.As seen fusing point reduces 200K, and crystallization temperature point T _xOnly reduce 100K:

Comparative example 2

Zr ₆₅A _17.5Ni ₁₀Cu _17.5Bulk amorphous alloy liquidus line (top temperature) is about 1150K, T _xAbout 750K (A.Inoue, T.Zhang, N.Nishiyama, K.ohba and T.Masumoto, Preparation of16mm Diameter Rod of Amorphous Zr ₆₅Al _7.5Ni ₁₀Cu _17.5Alloy, MaterialsTransaction, JIM, 34 (1993), 1234-1237.).And embodiment 1 non-crystaline amorphous metal Zr _56.5Cu ₁₉Al _8.5Ni ₈Ti ₄Y ₄T ₁Be 748K, T _xBe 650K.As seen fusing point reduces 400K, and crystallization temperature point T _xOnly reduce 100K.The copper mould casting that two kinds of alloys carry out under the same terms is tested Zr _56.5Cu ₁₉Al _8.5Ni ₈Ti ₄Y ₄Be easy to form the complete non-crystal bar that diameter is 3mm, and Zr ₆₅Al _17.5Ni ₁₀Cu _17.5Then can not form whole amorphous.

Comparative example 3

Zr ₅₅Al ₁₀Ni ₅Cu ₃₀The liquidus temperature T of non-crystaline amorphous metal ₁(top temperature) is 1115K through the DTA actual measurement.T _xAbout 767K (A.Inoue and T.Zhang, Fabrication of Bulk GlassyZr ₅₅Al ₁₀Ni ₅Cu ₃₀Alloy of 30mm in Diameter by a Suction Casting Method, Materials Transaction, JIM, 37 (1996), 185-187.).And embodiment 1 non-crystaline amorphous metal Zr _56.5Cu ₁₉Al _8.5Ni ₈Ti ₄Y ₄T ₁Be 748K, T _xBe 650K.As seen fusing point reduces 367K, and crystallization temperature point T _xOnly reduce 117K.The copper mould casting that two kinds of alloys carry out under the same terms is tested Zr _56.5Cu ₁₉Al _8.5Ni ₈Ti ₄Y ₄Can obtain diameter is the complete non-crystal bar of 6mm, and Zr ₅₅Al ₁₀Ni ₅Cu ₃₀Then there is the part crystalline state to exist mutually.

Claims

1, a kind of zirconium-base amorphous alloy of high formation ability is characterized in that alloy is by following element and unavoidable impurities composed atom per-cent:

Al 5～12％

Cu 15～37％

Ni 5～20％

Y 2～17％

Zr 48～65％。

2, by the zirconium-base amorphous alloy of the described high formation ability of claim 1, it is characterized in that: contain Ti 0.1～15% atom in the alloy.

3, by the zirconium-base amorphous alloy of claim 1 or 2 described high formation abilities, it is characterized in that: impurity element O ₂＜500ppm.