With the increasingly fierce competition in the metallurgical industry market, in order to adapt to the ferroalloy market, our company has developed a new type of deoxidizing material - new alloy silicon to meet the needs of users to reduce costs and improve economic efficiency. This product mainly uses silicon powder as the main raw material and is pressed on the briquette. It is a special product that can replace ferrosilicon in steel production. It can reduce production costs and promote recycling of resources. The production process of the product is as follows:Step 1: Raw material: metal silicon cutting powder, fine grade.Step 2: Inspect the raw materials, and the raw materials must pass the test.Step 3: Process the raw material into a fine powder.Step 4: Add the liquid to the stirrer together with the above powderStep 5: Press the product into a spherical shape with a size of 10-50 mm.Step 6: Test the product and the product must pass the test.Step 7: Pack the product and wait for transportation.The product model categories are as follows:
FerroSilicon uses coke, quartz (or silica) as raw material,and is made by electric furnace.Ferrosilicon is widely used in the steel making,iron casting ,low-carbon ferroalloy producing.
Application:
1.In the steel making field,Ferrosilicon is used as deoxidizer and alloying agent to precipit and diffuse deoxidation.Adding a certain amount silicon of fe-si to the steel can obviously improve the strength ,hardness ,elasticity and permeability of steel.
2.In the iron casting,ferrosilicon is used as ball mile agent and alloying agent, especially in the nodular iron casting,Adding ferrosilicon to cast iron,it can prevent the formation of carbide and promote the precipitation of graphite and the nodulizing.then the mechanical capacity can be the same of steel's.
3.High-silicon ferrosilicon can be used for the production of the low-carbon reductant in ferro alloy industry.
4.In addition, ferrosilicon powder can be used as a suspended phase in the mineral processing industry and coatings for welding electrodes in the electrode manufactruing.
1. Raw materials: ferrosilicon scrap, ferrosilicon powder and binder
2, the production process Sampling and testing raw material ferrosilicon scrap, ferrosilicon powder, in line with the production indicators, the ferrosilicon powder and binder into the mixer and stir evenly, through the conveyor belt into the ball press into a 10-50mm sphere, Output through the conveyor. Sampling and testing the finished silicon iron ball, sent to the second-three test room for testing, the test results meet the customer's requirements and then bagged and ready for shipment.
3. Product index Si: >65%; C: 2.0%; P: 0.05%; S: 0.03%; Al: 3.0%; Fe: 15-20% Size: 10-50mm 90%min, Package : 1 Mt Big Bag
4. Characteristics: The same effect of ferrosilicon and ferrosilicon is the indispensable deoxidizer and alloying agent in the steelmaking process. It can improve the furnace temperature, increase the fluidity of molten iron, effectively discharge slag, and improve pig iron and castings. Toughness and cutting ability. First, the uniform granularity reduces the loss, labor, electricity and transportation of the natural block of ferrosilicon used in steelmaking. Second, the product has uniform particle size, accurate feeding, good deoxidation effect, shortening deoxidation time, saving energy, improving steelmaking efficiency, improving quality, low raw and auxiliary materials consumption, high recovery rate and reducing labor intensity. Third, the melting speed is fast, the division is even, and the power consumption is reduced.
5. Usage: The method of use is exactly the same as that of ferrosilicon.
Si-C alloy is a new alloy of alloys for converters. It can replace ferrosilicon, silicon carbide and carbon reductant, reduce the amount of deoxidizer, and be used in converter smelting deoxidation alloying process. The effect is stable, chemical composition and mechanical properties of steel. The internal control quality is superior to the traditional process. Its characteristics: improve the quality of molten steel, improve product quality, improve product new energy, reduce the amount of alloy added, reduce steelmaking costs, and increase economic efficiency.
