Silicon-carbon alloy is a new type of alloy for converter, customers choose this to, replace most of ferrosilicon, silicon carbide and recarburizer, Used in converter, smelting deoxidation alloying process
The characteristics Reduce the cost of steelmaking, increase economic, efficiency, improve product quality, stable performance, improve the quality of, molten steel, improve product performance, reduce the amount of alloy added,, reduce the cost of steel and increase economic efficiency.
As the new alloy for converter, Silicon Carbon Alloy can replace Ferro Silicon to be used as deoxidizer. Â lower steelmaking cost, increase economic benefit, improve product quality and stable performance.our silicon metal is used by the chemical industry in the production of silicon compounds and by semiconductors. Aluminum manufactures to improve the useful properties of aluminum, as well as in the manufacture of silicon wafers used in photovoltaic solar cells and electronic.
Discover the Power of High-Carbon Silicon Carbon Alloy! Unleash the ultimate efficiency in your metallurgical processes with our High-Carbon Silicon Carbon Alloy. Engineered to perfection, this innovative alloy delivers exceptional performance with superior carbon content, enhancing steel quality, reducing energy consumption, and optimizing production costs. Experience unparalleled strength and durability, ensuring your products meet the highest industry standards. Choose High-Carbon Silicon Carbon Alloy for unmatched reliability and excellence in every application. Elevate your production with the best in alloy technology. Choose quality. Choose performance. Choose High-Carbon Silicon Carbon Alloy.
Silicon manganese alloy(Mnsi65-17) is an alloy composed of manganese, silicon, iron and a small amount of carbon and other elements. Silicon manganese alloy is an iron alloy with a wide range of uses and a large output. Silicon manganese alloy(Mnsi65-17) is a commonly used compound deoxidizer for steelmaking, and it is also a reducing agent for the production of low carbon ferro manganese and electro-silicon thermal production of metallic manganese. Silicon and manganese in silicon manganese alloys have a strong affinity for oxygen. The use of silicon-manganese alloy in steelmaking, resulting in deoxidation, with low melting point, large particles, easy to float, deoxidation effect and other advantages. Silicon-manganese alloy(Mnsi65-17) plays an alloying role on the properties of steel in the form of alloying elements. Manganese is also a conventional desulfurizing element, which can prevent the hot brittleness of steel and improve the machining properties and mechanical properties of steel. Excellent deoxidizer of Steel making secondary material, widely used in varies steel types especially well applied in BOF steelmaking deoxidization, improve the liquidity of molten steel and avoid built-up at the nozzle, decrease gas and impurities. Using silicon-manganese alloy to deoxidize and alloying in ladle instead of part of ferro silicon or all ferro manganese is helpful to improve the effective solubility of silicon, and also contribute to the simultaneous deoxidization of manganese and silicon, and improve the deoxidization capacity of silicon.
High carbon silicon briquette 5015 can be used for all kinds of ordinary steels to deoxidize, increase silicon, increase carbon during casting, and quickly deoxidize, with early slag formation, dense reducing atmosphere, and effectively improve the element recovery rate, so that the quality of molten steel is stable. High carbon silicon briquette 5015 can replace ferrosilicon, silicon carbide, recarburizer, reduce the amount of deoxidizer, used in converter smelting deoxidation alloying process, the effect is stable, steel chemical composition, mechanical properties and internal control quality are better than traditional processes. High Carbon Silicon Briquette 5015 is conducive to the reduction of production costs. High Carbon Silicon Briquette 5015 improve the quality of molten steel. High Carbon Silicon Briquette 5015 reduce the amount of alloy added. High Carbon Silicon Briquette 5015 adjusts the main alloy.
Improve the quality of molten steel, improve product quality and improve product capacity. Reduce the amount of alloy added, reduce steelmaking costs, and increase economic benefits.
High carbon silicon granule is a new type of alloy, generally called silicon carbon alloy, or high carbon silicon,or high carbon ferro silicon, or HC silicon. Oxidation should shorten the reduction time compared with ferrosilicon powder and carbon powder. Reduce power consumption. Improve labor productivity. The decomposition and oxidation of silicon-carbon alloys is an exothermic reaction process . The positive pressure in the furnace is strong. It can provide the necessary conditions for deoxidation and sulphur. Reduce the sulfur content. The reduction period is shortened. Reduces the chance of inhalation of molten steel in the later stage. Reduce the growth of the H element and return to P. The quality of the molten steel is guaranteed. Reduce the amount of quicklime and fluorite powder added. cut costs. Reduce the concentration of harmful gases and smoke and pollute the environment. Conducive to the improvement of operating conditions. Foam slag is rich and active. At the same time, the bubble is wrapped with arc yellow to reduce arc radiation. Improve the life of the lining and the furnace cover. Reduced thermal shutdown time and consumption of auxiliary materials.
High carbon silicon is composed of silicon and carbon alloy, also known as silicon carbon alloy, symbol SiC.High carbon iron silicon is commonly used deoxidizer has the following advantages: no hydrogen source in the deoxidizing process, to ensure safety and reliability; Carbon and silicon are important elements that determine the function of steel. High carbon ferro silicon can not only react with oxygen in the melting steel to play a deoxidation effect, but also the remaining carbon and silicon that are not oxidized can dissolve in the molten steel to play a role of increasing silicon and carbon, so as to achieve the effect of killing two birds with one stone. From the use of silicon carbon alloy can be seen in the replacement of some alloys have a great advantage, steel demand for silicon carbide alloy is also increasing, so silicon carbide alloy prospects.Reduce steelmaking cost, increase economic benefit, improve product quality, stable performance. The point use of high carbon silicon is that it can conducive to the reduction of production costs,Improve the quality of melting steel,reduce the amount of alloy,adjust the main alloy. The main point for choosing our company is the reliability of our products,have our own factory.
We are supplier and exporter of Ferro Silicon. Ferro silicon Specs: Si:75%min. and Si:72%min. C:0.2%max. S:0.02%max. P:0.04%max. Al:2.0%max.1.5%max.and 1.0%max .Commodity: Ferro Silicon Low Al Specs: Si:75%min. C:0.2%max. S:0.02%max. P:0.04%max.Al:0.1%max.0.3%max.and0.5%max. In 1mt plastic woven bags. Ferro Silicon Ferro Silicon has a melting point of 1200�¯�¿�½?�?�°C to 1250�¯�¿�½?�?�°C with a boiling point of 2355�¯�¿�½?�?�°C and Ferro Silicon contains about 2% of calcium and alluminium. Ferro Silicon, as an additive to the production process of ferrous metals, will impart several desirable properties upon the resultant alloy. Some of the primary benefits of adding Ferro Silicon to an alloy is to improve the corrosion resistant properties of the new compound, as well as to add to the high temperature heat- resistance properties of the new alloy, for example, in the production of silicon steel for use in transformer cores.