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Alloyed gray cast iron resistant to high-temperature aluminum and zinc liquid corrosion and its smelting process

A high temperature resistant and alloying technology, applied in the field of metallurgy, can solve the problems of poor temperature resistance, poor corrosion resistance, unstable mechanical properties, and different metallographic structures, and achieve stable corrosion resistance and small volume expansion coefficient. , the effect of low cementite content

Active Publication Date: 2020-07-10
武汉机械工艺研究所有限责任公司
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

With the development of industry, the requirements for the performance of gray cast iron are getting higher and higher, not only requiring it to have higher mechanical properties, but sometimes it is also required to have some special properties, such as high wear resistance, heat resistance and corrosion resistance, etc. ;Add some alloying elements to the molten iron of gray cast iron to obtain alloy cast iron with some special properties, but most of them are brittle, low in strength and poor in mechanical properties
[0003] The high-strength high-temperature-resistant and corrosion-resistant cast iron disclosed in Chinese Patent No. CN201110205156.X has the following chemical composition: C: 2.7-2.9%, Si: 1.5-1.8%, Mn: 0.6-0.8%, Al: 4.0-6.0%, Cu: 1.5-1.8%, Mo: 0.4-0.5%, Cr: 1.0-2.0%, P≤0.05%, S≤0.05%, the balance is Fe; but due to the addition of a large amount of aluminum, the casting performance is poor; Another example is Chinese Patent No. CN201310130200.4 which discloses a eutectic graphite gray cast iron continuous casting profile and its manufacturing method, which is prepared from the following raw materials according to the stated mass percentage: C: 3.40%-3.60%, Si: 2.4% -2.9%, Mn: 0.6%-1.0%, P: 0.08%-0.15%, S: ≤0.07%, Ti: 0.06%-0.20%, Cu: 0.3-0.80%, Fe: 91.5%-93%, each The total amount of raw materials is 100%; however, due to the high silicon content, it has a metallographic structure of flake graphite and ferrite, resulting in hard and brittle material properties and low mechanical properties; secondly, the two patents prepared above Cast iron has high hardness and low toughness, is not resistant to impact wear, has poor temperature resistance and corrosion resistance in high-temperature aluminum and zinc liquids, has different metallographic structures in cast iron, unstable mechanical properties, and incompletely graphitized carburizing The body will undergo graphitization under the high temperature conditions of immersion plating, accompanied by volume expansion, and when it is subsequently cooled, the expanded volume will shrink sharply, resulting in greater internal stress, which will cause cracks in the matrix structure of cast iron parts, so It cannot be used for surface modification in the "hot-dip aluminum, zinc" process, and is not suitable for casting castings such as sinking rolls, stabilizing rolls, correcting rolls, and bearing housings

Method used

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  • Alloyed gray cast iron resistant to high-temperature aluminum and zinc liquid corrosion and its smelting process
  • Alloyed gray cast iron resistant to high-temperature aluminum and zinc liquid corrosion and its smelting process
  • Alloyed gray cast iron resistant to high-temperature aluminum and zinc liquid corrosion and its smelting process

Examples

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Effect test

Embodiment 1

[0035] An alloyed gray cast iron resistant to high-temperature aluminum and zinc liquid corrosion, made of the following raw materials: scrap steel, high-purity pig iron, electrolytic copper, ferrosilicon, ferromanganese, ferrochrome, recarburizer, inoculant, the scrap steel, The components of high-purity pig iron, electrolytic copper, ferrosilicon, ferromanganese and ferrochrome are shown in Table 1. The smelting process includes the following steps:

[0036] S1. Alloy smelting: Put the recarburizer in an intermediate frequency induction furnace, place scrap steel and cast iron on top, and smelt at 1165°C to increase carbon. After a molten pool is formed at the bottom of the furnace, add nickel plate, ferromanganese, ferrochrome and electrolytic copper in sequence , continue smelting, then raise the temperature to 1535°C, add ferromolybdenum and light rare earth to generate molten iron; the recarburizer is petroleum coke graphite, fixed carbon content ≥ 99.29%, particle size 1...

Embodiment 2

[0041] The smelting process of Example 2 is the same as that of Example 1, the difference is that the ratio of raw materials is different, and step S3, tapping molten iron and inoculating treatment: when the temperature of molten iron drops to 1535 ° C, the addition of the inoculant is 0.4% of the mass of molten iron. %, the inoculant is a modified silicon barium inoculant, including the following elements by weight: Si: 68%, Ba: 8%, Ca: 7%, Al: 2%, Zr: 4.5%, Re: 2% , the balance is Fe, and the balance is Fe.

Embodiment 3

[0043] The smelting process of Example 3 is the same as that of Example 1, the difference is that the ratio of raw materials is different, and step S3, molten iron tapping and inoculation treatment: when the temperature of molten iron drops to 1535°C, the addition of the inoculant is 0.6% of the mass of molten iron. %, the inoculant is a modified silicon barium inoculant, including the following elements by weight: Si: 68%, Ba: 8%, Ca: 7%, Al: 2%, Zr: 4.5%, Re: 2% , the balance being Fe.

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Abstract

The invention belongs to the technical field of metallurgy, and particularly relates to high-temperature aluminum and zinc liquid corrosion resisting alloyed gray pig iron and a smelting technology thereof. The high-temperature aluminum and zinc liquid corrosion resisting alloyed gray pig iron specifically comprises following elements including, by weight percent, 3.1%-3.3% of C, 1.9%-2.2% of Si,0.8%-1.0% of Mn, smaller than or equal to 0.06% of P, smaller than or equal to 0.03% of S, 0.15%-0.3% of Cr, 0.05%-0.15% of Ni, 0.05%-0.2% of Cu, 0.15%-0.25% of Mo, 0.02%-0.04% of light rare earth andthe balance Fe. Through the synergistic effect of electrolytic copper, chromium, nickel, ferromolybdenum, the light rare earth and other alloy elements, the content of pearlite in a base body is increased, the pearlite layer sheet thickness and sheet distance are obviously reduced, base body structure grains are fine, a graphite sheet formed through one-time crystallization is fine and disperse,a small number of ferrite base body structures are easily obtained, hardness can be better reduced, material toughness is improved, the metallurgical quality is good, and strength is high.

Description

technical field [0001] The invention relates to the technical field of metallurgy, in particular to an alloyed gray cast iron resistant to high-temperature aluminum and zinc liquid corrosion and a smelting process thereof. Background technique [0002] Gray cast iron refers to cast iron with flake graphite. The main components are iron, carbon, silicon, manganese, sulfur and phosphorus. It is the most widely used cast iron, and its output accounts for more than 80% of the total output of cast iron. It has wear resistance, heat resistance, Oxidation resistance, corrosion resistance, acid and alkali resistance and good shock absorption, at the same time, compared with other alloys, it has the advantages of low melting point, good filling performance, good processability, simple production facilities and molding process, and low cost; suitable for Large castings with high requirements and different cross-sections. With the development of industry, the requirements for the perf...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C22C37/10C22C37/08C22C33/08C21C1/08
CPCC21C1/08C22C33/08C22C37/08C22C37/10Y02P10/20
Inventor 黄年喜吕炳辉杨晶詹绍斌
Owner 武汉机械工艺研究所有限责任公司
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