Melting process for producing synthetic cast iron by utilizing SiC carburizing siliconizing

A technology for synthesizing cast iron and process, applied in the field of smelting process of cast iron materials, can solve problems such as low price, and achieve the effects of reducing dosage, reducing size and improving roundness

Active Publication Date: 2010-02-17
河南省金太阳精密铸业股份有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] At present, it is widely used at home and abroad to use scrap steel and returned iron as raw materials, and use recarburizers and ferrosilicon to increase carbon and silicon to produce synthetic cast iron, but the price of ferrosilicon in the market is relatively high, which makes the smelting cost in a relatively low High level, in today's pursuit of low cost, it has been the industry's efforts to find a material that can replace ferrosilicon and increase carbon and silicon in the production of synthetic cast iron, and the price is relatively cheap, thereby reducing smelting costs. The direction of silicon carbide (SiC) contains about 70% Si, which is equivalent to the silicon content of ferrosilicon for casting, but its price is much lower than that of ferrosilicon, but how to use silicon carbide in the smelting process to become a problem

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0024] In this example, SiC is used to increase carbon and silicon to produce a slide seat made of HT300 material (weight 2050Kg, main wall thickness 30mm) and cast a single-cast test bar at the same time. The specific process and steps are as follows:

[0025] According to the influence of the five major elements on the structure of gray cast iron, the chemical composition is designed, C%: 2.90-3.05%, Si%: 1.8-2.1%, Mn%: 0.8-1.1%, S%: 0.06-0.10%, P%: < 0.08%, the rest is iron and a small amount of accompanying impurities, using silicon calcium barium inoculant.

[0026] Modeling: furan resin sand modeling;

[0027] Ingredients: 60% steel scrap, 40% recycled material, 1.5% silicon carbide, 2% recarburizer and 0.1% iron sulfide (FeS), the particle size of silicon carbide is 7mm, and the particle size of inoculant is 4mm;

[0028] Charging: When charging, SiC is either added to the bottom of the furnace before smelting, or added during the smelting process, or used in conjunct...

Embodiment 2

[0037] In this example, the QT450-10 butterfly valve body (weight 1196Kg, valve body nominal diameter 1400mm, main wall thickness 50mm) parts made of QT450-10 material is produced by SiC carbon and silicon, and the "Y" shaped test block is cast. The specific process and steps are as follows:

[0038] According to the influence of the five major elements on the structure of ductile iron, the chemical composition is designed, C%: 3.7-3.8%, Si%: 2.60-2.75%, Mn%: 0.3-0.4%, S%: <0.03%, P%: <0.06 %, the rest is iron and a small amount of accompanying impurities, using silicon calcium barium strontium composite inoculant.

[0039] Modeling: furan resin sand modeling;

[0040] Ingredients: 60% of steel scrap, 30% of recycled material, 10% of new iron, 1.8% of silicon carbide, the particle size of silicon carbide is 7mm, and the particle size of inoculant is 4mm;

[0041] Charging: when charging, SiC is either added to the bottom of the furnace before smelting, or added during the sm...

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PUM

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Abstract

The invention discloses a melting process for producing synthetic cast iron by utilizing SiC carburizing siliconizing, which produces the synthetic cast iron by taking scrap steel, pig iron and cast iron returns or scrap steel and cast iron returns as the main raw materials in an induction furnace by utilizing SiC as an carburizing siliconizing agent, wherein the addition of SiC is 0.5-3%, and thegranularity is 6-20mm; SiC is added to a hearth before melting or is added during the melting process, or the two modes cooperate to be used. The invention utilizes SiC to replace the pig iron and silicon iron carburizing siliconizing to reduce the pig iron and silicon iron so as to reduce the cost, and meanwhile, the tendency of the molten iron chill and the reverse chill of the produced synthetic cast iron is small; the dimensions of graphite pebbles in produced nodular cast iron are small, the sphericity or roundness is high, the content of ferrite is high, and the roughness of the nodularcast iron is improved; the organization of produced grey cast iron is refined, and the mechanical property and the abrasion resistance are obviously improved. The invention can be used for producingvarious trademarks of grey cast iron, nodular cast iron and alloy cast iron.

Description

Technical field: [0001] The invention relates to a smelting process technology for cast iron materials, in particular to a smelting process for producing synthetic cast iron by increasing carbon and silicon with SiC. Background technique: [0002] In recent years, the prices of pig iron and ferrosilicon have risen sharply, which has greatly increased the production cost of cast iron using pig iron as the main raw material in the traditional process, while the price of scrap steel is much lower than that of virgin iron, and the quantity is large, so no or less virgin iron is used , The smelting technology of synthetic cast iron using scrap steel and returned iron, and then adding carbon and silicon came into being. Under the condition of the same carbon equivalent, the tensile strength of this synthetic cast iron is about 30MPa higher than that of ordinary gray cast iron, and the hardness of synthetic cast iron is generally about 10HB lower than that of ordinary gray cast iro...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C21C1/08C22C33/08
CPCY02P10/20
Inventor 宋建恩宋向阳靳存文
Owner 河南省金太阳精密铸业股份有限公司
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