CN1332258A

CN1332258A - Application of copper-nickel alloy

Info

Publication number: CN1332258A
Application number: CN01121753A
Authority: CN
Inventors: ·赫尔曼坎普; D·罗德; H－G·沃伯克
Original assignee: KM Europa Metal AG
Current assignee: KM Europa Metal AG
Priority date: 2000-07-07
Filing date: 2001-07-06
Publication date: 2002-01-23
Anticipated expiration: 2021-07-06
Also published as: CZ20012424A3; BR0102767A; MXPA01006886A; US20020005235A1; DE10032627A1; AU5403801A; TWI264469B; JP2002053921A; CA2352638A1; TR200101997A3; KR20020003507A; EP1170074A1; AR029563A1; TR200101997A2; CN1261604C; PL348478A1; RU2001119000A

Abstract

The present invention provided a material exhibiting excellent weldability as well as good thermomechanical properties and used as a crucible for a melting device and a remelting device. A copper alloy having a composition containing 0.2 to 1.5% Ni, at least one kind of element selected from the groups consisting of phosphorous, aluminum, manganese, lithium, calcium, manganese, silicon and boron of 0.002 to 0.12%, and the balance copper with impurities caused by the production is used as the material in an unhardened state, e.g. for the production of a crucible for a melting device and a remelting device. For intentionally improving its strength, the copper alloy may contain zirconium of <=0.3% as well.

Description

A kind of application of cupronickel

One aspect of the present invention relates to copper alloy application as material under the state of non-hardenable, is used for producing the container that receives molten metal, for example is used for the crucible of fusion and remelting apparatus.

The present invention relates to the production method of the container of being made by cupronickel on the other hand, this container can receive molten metal.

Fusion and remelting method are well-known in actual smelting process.It is used for improving the quality of steel and iron-based, Ni-based and cobalt base superalloy.The Another application field is to produce non-ferrous metal as tantalum, titanium, molybdenum and zirconium.

The material that is used for producing crucible is copper and copper alloy normally, because copper and copper alloy can be high temperature resistant.

Crucible seamless, welding or that otherwise constitute is the pipe shape or rectangular-shapedly is its basic configuration.Yet polygonal or foursquare crucible is arranged also.In addition, the crucible of such shape also can be applied in indivedual places, and promptly this crucible shape will adapt with the net shape of the member that will smelt, as is used for bent axle and pressurized vessel.

Molten metal receiving vessel such as crucible its maximum length usually are 4 meters, and maximum diameter is 1.5 meters.

In fusion and remelting apparatus, crucible is wrapped up by a cooling jacket usually, to absorb the heat in fusion and the reflow process.At this, cooling jacket itself can be made steel structural form.But can imagine that the difference of this structure is that cooling-water flowing direct form with slit or cooling hole in this structure flows to copper mould wall, and makes overcoat and crucible form an integral body.

From the known Albatra metal-of US-A-2155405, this alloy contains 0.25% to 3% nickel, 0.05% to 0.6% phosphorus, and surplus is a copper.This alloy is originally and is used as electric conductor to have conductive capability and the advantages of higher tensile strength of 67%IACS.

In addition, from the copper alloy of the known a kind of age hardening of EP-A1-0249740, this alloy is made up of 0.2% to 1.2% nickel and 0.04% to 0.25% phosphorus.This alloy can be used as the continuous casting die, and this die is used for the continuous casting refractory metal.Age hardening through a few hours is handled, and the hardness HB2.5/62.5 of this material can reach more than 115.

Task of the present invention is, is provided as the material of manufacturing the crucible in fusion-remelting apparatus, and this material also will have superior welding property except good thermomechanical property is arranged.

The present invention proposes a method that is used for manufacturing the molten metal receiving vessel on the other hand, this container is welded by a plurality of parts under possible situation.

The solution of this task is on the one hand, application contains 0.2% to 1.5% nickel, at least a element in 0.002% to 0.12% phosphorus, aluminium, manganese, lithium, calcium, magnesium, silicon and the boron group, can select to be at most 0.3% zirconium, surplus be the impurity brought in copper and the refining process an Albatra metal-as material-this material be in non-hardenable state-be used for producing molten metal receiving vessel, for example crucible in fusion-remelting apparatus.

Advantageously, the alloy that will use according to the present invention contains at least one element in boron, magnesium and the phosphoric group of 0.6% to 1.3% nickel and 0.01% to 0.06%, and copper is the impurity of bringing in surplus and the refining process.

For the purpose that improves intensity, add in the alloy 0.01% to 0.3% zirconium at the most be favourable.

See the feature that is included in proposition in the claim 5 to 7 by the process portion of solution of the present invention.

Claims

1. the application of an Albatra metal-, this alloy is that the impurity of bringing in copper and the refining process is formed by at least a element, surplus in phosphorus, aluminium, manganese, lithium, calcium, magnesium, silicon and the boron group of 0.2% to 1.5% nickel and 0.002% to 0.12%, this alloy that is in the non-hardenable state is used as the material of producing the molten metal receiving vessel, and receiving vessel is for for example being used for the crucible of fusion-remelting apparatus.

2. according to the copper alloy of claim 1, it is characterized in that the nickel content of this alloy is 0.6% to 1.3%, boron, magnesium and/or phosphorus element content are 0.01% to 0.06%.

3. according to the copper alloy of claim 1 or 2, it is characterized in that, the nickel content of this alloy be 1.0% to 1.3% and phosphorus content be 0.01% to 0.03%.

4. according to the copper alloy of one of claim 1 to 3, it is characterized in that the zirconium content that adds in this alloy is at most 0.3%.

5. prepared the method for molten metal container by the copper alloy according to claim 1 to 4, it is characterized in that, this alloy is cooled off by immobilized ambient air after thermoforming.

6. according to the method for claim 5, it is characterized in that this alloy is after thermoforming, having at least 10% will be by cold working.

7. according to the method for claim 6, it is characterized in that, in the cold working of the above-mentioned alloy of thermoforming state again and next welding, be following mutual coordination, so that the intensity in weld seam is compared and can not be departed from more than 15% with corresponding starting materials with conductivity.