CN105755318A - Zinc-aluminum-iron alloy material and processing method thereof - Google Patents

Zinc-aluminum-iron alloy material and processing method thereof Download PDF

Info

Publication number
CN105755318A
CN105755318A CN201610252381.1A CN201610252381A CN105755318A CN 105755318 A CN105755318 A CN 105755318A CN 201610252381 A CN201610252381 A CN 201610252381A CN 105755318 A CN105755318 A CN 105755318A
Authority
CN
China
Prior art keywords
zinc
percentage ratio
aluminum
processing method
iron alloy
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
CN201610252381.1A
Other languages
Chinese (zh)
Inventor
史海华
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to CN201610252381.1A priority Critical patent/CN105755318A/en
Publication of CN105755318A publication Critical patent/CN105755318A/en
Withdrawn legal-status Critical Current

Links

Classifications

    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22CALLOYS
    • C22C1/00Making non-ferrous alloys
    • C22C1/02Making non-ferrous alloys by melting
    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22CALLOYS
    • C22C18/00Alloys based on zinc

Landscapes

  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Materials Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Metallurgy (AREA)
  • Organic Chemistry (AREA)
  • Forging (AREA)

Abstract

The invention relates to a zinc-aluminum-iron alloy material and a processing method thereof.The zinc-aluminum-iron alloy material comprises, by weight, 12.21-15.11% of zinc, 2.15-3.25% of bismuth, 0.21-1.03% of tellurium, 1.01-2.03% of iron, 1.3-2.15% of tungsten, 1.19-2.01% of molybdenum, 0.15-2.10% of aluminum and 1.05-1.27% of copper.Due to containing of the zinc, the hot-forming property of the zinc-aluminum-iron alloy material is in an intermediate level relative to that of iron alloy, zinc alloy and tungsten alloy, thermal deformation resistance and tensile strength of the zinc-aluminum-iron alloy material reach 500MPa, and the zinc-aluminum-iron alloy material has a superplastic behavior and is wide in temperature range of superplastic deformation and easy in forming and processing.

Description

A kind of zinc-aluminium ferroalloy materials and processing method
Technical field
The present invention relates to a kind of low-cost and high-performance aluminium alloy material field, particularly relate to a kind of zinc-aluminium ferroalloy materials and processing method.
Background technology
Low-cost and high-performance zinc-aluminium ferroalloy materials is mainly for the manufacture of auto parts and components.Zinc and kirsite early have on automobile and motorcycle and successfully use, the most mainly the most expensive popularization and application that have impact on it of use cost, the exploitation of auto parts kirsite and applied research, reduce the key that kirsite cost is application, its cost has and reduces significantly, application prospect is boundless, but in these areas because the liquid such as the water of contact and environment still can produce certain corrosiveness to this kind of equipment, we are often able to find at home or the tubing in other place or valve tie viridescent rust, this not only affects the service life reducing these materials too attractive in appearance, but the resistivity of both metals is high, limited use to the spark occurred when reducing friction.The present invention well solves and existing there is technical problem.
Summary of the invention
The invention provides a kind of zinc-aluminium ferroalloy materials and processing method, it provides the titanium elements not using high price in known ferroalloy, but use cheap titanium alloy, adapt to the technical method of low-cost and high-performance Ti-Al-Fe alloy material in temperature changing process.
The above-mentioned technical problem of the present invention is mainly addressed by following technical proposals.
A kind of zinc-aluminium ferroalloy materials of the present invention and processing method, its each composition is respectively as follows: the percentage ratio of zinc by weight percentage and is: 12.21-15.11%, the percentage ratio of bismuth is: 2.15-3.25%, the percentage ratio of tellurium is: 0.21-1.03%, the percentage ratio of ferrum is: 1.01-2.03%: the percentage ratio of tungsten is: 1.3-2.15%, the percentage ratio of molybdenum is: 1.19-2.01%, the percentage ratio of aluminum is: 0.15-2.10%, the percentage ratio of copper is: 1.05-1.27%.
A kind of zinc-aluminium ferroalloy materials of the present invention and processing method, it comprises the following steps: 1) above-mentioned dispensing is put into and is heated to liquid in smelting furnace and stirs mixing;2) under melting state, bottom smelting furnace, it is passed through oxygen 15-30 minute of 1.5-2.9MPa;3) ferroalloy liquid first constant temperature breeds 50-80 minute;4) then cooling 100-200 degree, then is warming up to breed temperature, casting after be incubated 20-40 minute, the most cold rolling pours.
A kind of zinc-aluminium ferroalloy materials of the present invention and processing method, because alloy composition contains zinc, it is in the middle of ferroalloy, kirsite and tungsten alloy in hot-working character, Deformation Resistance, hot strength reach 500MPa, there is superplastic behavior, and the temperature range of superplastic deformation is the widest, it is easy to processing and forming.
Detailed description of the invention
Understand for the ease of those of ordinary skill in the art and implement the present invention, and technical scheme is described in further detail.
Embodiment 1: a kind of zinc-aluminium ferroalloy materials of this example and processing method, its each composition is respectively as follows: the percentage ratio of zinc by weight percentage and is: 12.21-15.11%, the percentage ratio of bismuth is: 2.15-3.25%, the percentage ratio of tellurium is: 0.21-1.03%, the percentage ratio of ferrum is: 1.01-2.03%: the percentage ratio of tungsten is: 1.3-2.15%, the percentage ratio of molybdenum is: 1.19-2.01%, the percentage ratio of aluminum is: 0.15-2.10%, the percentage ratio of copper is: 1.05-1.27%.
A kind of zinc-aluminium ferroalloy materials of the present invention and processing method, it comprises the following steps: 1) above-mentioned dispensing is put into and is heated to liquid in smelting furnace and stirs mixing;2) under melting state, bottom smelting furnace, it is passed through oxygen 15-30 minute of 1.5-2.9MPa;3) ferroalloy liquid first constant temperature breeds 50-80 minute;4) then cooling 100-200 degree, then is warming up to breed temperature, casting after be incubated 20-40 minute, the most cold rolling pours.
Embodiment 2: a kind of zinc-aluminium ferroalloy materials of this example and processing method, its each composition be respectively as follows: by weight percentage the percentage ratio of zinc be 15.11%, the percentage ratio of bismuth be: 3.25%, the percentage ratio of tellurium is: 1.03%, the percentage ratio of ferrum is: 2.03%: the percentage ratio of tungsten is: 2.15%, the percentage ratio of molybdenum is: 2.01%, the percentage ratio of aluminum is: 2.10%, the percentage ratio of copper is: 1.27%.
A kind of zinc-aluminium ferroalloy materials of the present invention and processing method, it comprises the following steps: 1) above-mentioned dispensing is put into and is heated to liquid in smelting furnace and stirs mixing;2) under melting state, bottom smelting furnace, it is passed through oxygen 15-30 minute of 1.5-2.9MPa;3) ferroalloy liquid first constant temperature breeds 50-80 minute;4) then cooling 100-200 degree, then is warming up to breed temperature, casting after be incubated 20-40 minute, the most cold rolling pours.
Embodiment 3: a kind of zinc-aluminium ferroalloy materials of this example and processing method, its each composition is respectively as follows: the percentage ratio of zinc by weight percentage and is: 12.21%, the percentage ratio of bismuth is: 2.15%, the percentage ratio of tellurium is: 0.21%, the percentage ratio of ferrum is: 1.01%: the percentage ratio of tungsten is: 1.3%, the percentage ratio of molybdenum is: 1.19%, the percentage ratio of aluminum is: 0.15%, the percentage ratio of copper is: 1.05%.
A kind of zinc-aluminium ferroalloy materials of the present invention and processing method, it comprises the following steps: 1) above-mentioned dispensing is put into and is heated to liquid in smelting furnace and stirs mixing;2) under melting state, bottom smelting furnace, it is passed through oxygen 15-30 minute of 1.5-2.9MPa;3) ferroalloy liquid first constant temperature breeds 50-80 minute;4) then cooling 100-200 degree, then is warming up to breed temperature, casting after be incubated 20-40 minute, the most cold rolling pours.
Embodiment 4: a kind of zinc-aluminium ferroalloy materials of this example and processing method, its each composition is respectively as follows: the percentage ratio of zinc by weight percentage and is: 13.21%, the percentage ratio of bismuth is: 3.15%, the percentage ratio of tellurium is: 1.21%, the percentage ratio of ferrum is: 1.53%: the percentage ratio of tungsten is: 1.65%, the percentage ratio of molybdenum is: 1.91%, the percentage ratio of aluminum is: 1.75%, the percentage ratio of copper is: 1.7%.
A kind of zinc-aluminium ferroalloy materials of the present invention and processing method, it comprises the following steps: 1) above-mentioned dispensing is put into and is heated to liquid in smelting furnace and stirs mixing;2) under melting state, bottom smelting furnace, it is passed through oxygen 15-30 minute of 1.5-2.9MPa;3) ferroalloy liquid first constant temperature breeds 50-80 minute;4) then cooling 100-200 degree, then is warming up to breed temperature, casting after be incubated 20-40 minute, the most cold rolling pours.
The foregoing is only the specific embodiment of the present invention, but the architectural feature of the present invention is not limited thereto, any those skilled in the art is in the field of the invention, and change or the modification made all are contained among the scope of the claims of the present invention.

Claims (2)

1. zinc-aluminium ferroalloy materials and a processing method, its each composition is respectively as follows: the percentage ratio of zinc by weight percentage and is: 12.21-15.11%, the percentage ratio of bismuth is: 2.15-3.25%, the percentage ratio of tellurium is: 0.21-1.03%, the percentage ratio of ferrum is: 1.01-2.03%: the percentage ratio of tungsten is: 1.3-2.15%, the percentage ratio of molybdenum is: 1.19-2.01%, the percentage ratio of aluminum is: 0.15-2.10%, the percentage ratio of copper is: 1.05-1.27%.
A kind of zinc-aluminium ferroalloy materials the most according to claim 1 and processing method, it comprises the following steps:
1) above-mentioned dispensing is put into smelting furnace is heated to liquid and stirs mixing;
2) under melting state, bottom smelting furnace, it is passed through oxygen 15-30 minute of 1.5-2.9MPa;
3) ferroalloy liquid first constant temperature breeds 50-80 minute;
4) then cooling 100-200 degree, then is warming up to breed temperature, casting after be incubated 20-40 minute, the most cold rolling pours.
CN201610252381.1A 2016-04-21 2016-04-21 Zinc-aluminum-iron alloy material and processing method thereof Withdrawn CN105755318A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201610252381.1A CN105755318A (en) 2016-04-21 2016-04-21 Zinc-aluminum-iron alloy material and processing method thereof

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201610252381.1A CN105755318A (en) 2016-04-21 2016-04-21 Zinc-aluminum-iron alloy material and processing method thereof

Publications (1)

Publication Number Publication Date
CN105755318A true CN105755318A (en) 2016-07-13

Family

ID=56325479

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201610252381.1A Withdrawn CN105755318A (en) 2016-04-21 2016-04-21 Zinc-aluminum-iron alloy material and processing method thereof

Country Status (1)

Country Link
CN (1) CN105755318A (en)

Similar Documents

Publication Publication Date Title
CN102776448B (en) Alloy grinding ball and production method thereof
CN102506237B (en) Concrete conveying pipe and manufacturing method thereof
CN101709427A (en) Low-cost, high-strength, high-toughness and high-abrasion resistance cold-working die steel and preparation method thereof
CN102560229B (en) Low chrome multielement alloy cast ball and preparing method thereof
CN102925743A (en) Lead-free wear-resistant copper alloy and preparation method thereof
CN104313429A (en) Wearing-resisting damping alloy preparation method
CN105838917B (en) A kind of high-wearing feature generator axle sleeve
CN102978442A (en) Rare earth zinc copper titanium alloy and production method thereof
CN104178703A (en) Novel metallic material
CN103938058B (en) A kind of preparation method of nickel chromium iron system multi-element high-resistance electrothermal alloy band
CN104294126A (en) Wear-resistant damping alloy
CN105855810B (en) A kind of good axle sleeve of lubricity
CN103071749A (en) Method for machining forklift pallet fork
CN104762539A (en) High-strength and high-abrasion weldable aluminum base alloy
CN103361563B (en) A kind of Cutting free high rigidity austenite nonmagnetic die steel and manufacture method thereof
CN102534365A (en) Aluminum killed steel hot dip galvanized sheet and production method thereof
CN103014415A (en) Zinc alloy material
CN103484713A (en) High-strength wear-resistant multi-element complex brass alloy drawn pipe bar and manufacture technology thereof
CN105755318A (en) Zinc-aluminum-iron alloy material and processing method thereof
CN107723505A (en) A kind of wear-resistant copper alloy and preparation method thereof
CN101429600A (en) Production technology for tellurium copper bar, plate, stick or pipe
CN104847054A (en) Large-sized deformed bar and manufacturing method thereof
CN104109810A (en) High-C abrasion-resistant steel ball
CN102900663A (en) Cylinder sleeve and manufacturing method thereof
CN102690964A (en) Alterant for hypereutectic aluminum-silicon alloy primary silicon and preparation method thereof

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C04 Withdrawal of patent application after publication (patent law 2001)
WW01 Invention patent application withdrawn after publication

Application publication date: 20160713

DD01 Delivery of document by public notice

Addressee: Shi Haihua

Document name: Notification of Approving Refund