Silicon carbide powder refers to the use of JZFZ equipment for ultrafine crushing grading of micron-grade silicon carbide powder. Silicon carbide powder mainly for the 1200 # and 1500 # mainly due to silicon carbide powder is mainly used for the abrasive industry, so the fine powder grading has special requirements, the powder can not have large particles appear, so for the international and domestic product requirements, the general Production are used JZF grading equipment for high-precision classification. Domestic silicon carbide powder is mainly black silicon carbide powder and green silicon carbide powder. Silicon carbide differential effect Introduction: 1�Glass, The main raw material of various glasses. 2� ceramics and refractories: porcelain embryo and glaze, furnace with high silica bricks, ordinary silicon brick and silicon carbide and other raw materials. Metallurgy: silicon metal, ferrosilicon and silicon aluminum alloy and other raw materials or additives, flux 3�the construction: concrete, cementing materials, road materials, artificial marble, cement physical properties test materials (ie, cement standard sand), etc. 4�chemical: silicon compounds and water glass and other raw materials, sulfuric acid tower filler, amorphous silica powder 5, machinery: casting sand main raw materials, grinding materials (sandblasting, hard grinding paper, sandpaper, emery cloth, etc.) 6�electronic: electronic filler, high purity silicon metal, optical fiber and so on 7�rubber, plastic: filler (can improve wear resistance) 8�paint: paint can improve the weather resistance
Henan Zhengzhou Mining Machinery Co., Ltd began to manufacture equipments for Mg smelting industry from 1988, and focused on the technology upgrading and utilization. During 2003-2005, the company invented Vertical pre-heater for the calcination of dolomite. This kind of new pre-heater saves fuel by 40% and increases the output by 30%. The exhaust gas is recycled and dust emission can be controlled under 50mg/m3. This kind of new pre-heater takes up more than 85% in the market share. The company has got the patent of energy-saving rotary kiln, vertical pre-heater and vertical cooler. Our advantages: 1. Saving energy: The refractory lining of the rotary kiln consists of the outer insulation made of light refractory brick and inner compound refractory bricks. Such kind of lining will reduce the heat emission on the shell surface of the rotary kiln as much as possible. The pre-heater at the end of the rotary kiln will recycle the heat to preheat the material and save fuel by 40% and increase the output by 30%. 2.Low consumption: The vertical cooler at the discharge end of rotary kiln recycles the heat of the calcined dolomite which is discharged from the rotary kiln, and will preheat the secondary air up to 600. The vertical cooler is integrated with kiln hood to prevent the waste caused by heat emission from the discharged calcined dolomite. 3. Two phases of dust collection including cyclone filter and bag filter, will control the dust emission below the limitation of the national standard. 4. High degree of automation:PLC control system improve the job efficiency Production Technology: Pidgeon process is applied in the company Mg smelting technology. This kind of process is advanced and reliable technology. Qualified dolomite is transported into the rotary kiln for calcination; Calcined dolomite is mixed with fluorite and ferrosilicon and then pressed into briquette. The briquette is put into retorts where there is vacuum, and then deoxidized into crystallized Magnesium, which is called crude Mg. Crude Mg is smelted and refined to get pure Mg. The complete production line is divided into several systems including raw material storage, dolomite calcination, grinding&briquetting, reduction and refining.
Quartz sand is a hard, wear-resisting, stable chemical properties of silicate minerals, the main mineral composition is SiO2, quartz sand color for the milky white or colorless translucent, white crystals, multi type globular 7 hardness, brittle no cleavage, conchoidal fracture, oily luster, density 2.65, bulk density (1-20 mesh is 1.6), 20-200 mesh is 1.5, the chemical, thermal and mechanical properties has obvious anisotropy, insoluble in acid, slightly soluble in KOH solution, melting point 1750Without impurities, high mechanical strength, stable chemical performance, large carrying capacity, long cycle life, good economic benefit. 1, glass, flat glass, float glass, glass products, glass jars, glass bottles, glass, etc.), optical glass, glass fiber, glass instruments, conductive glass, glass cloth and the rays, special glass, etc. The main raw material. 2, ceramics and refractory materials: porcelain of the embryo and the glaze, kiln with high silica silica brick, and silicon carbide materials. 3, metallurgy: silicon metal, ferrosilicon and silicon aluminum alloy raw materials or additives, flux. 4, building: concrete, cementing materials, construction materials, artificial marble, cement physical property test material (i.e., cement standard sand), etc. 5, chemicals: silicon compound and sodium silicate materials, such as sulfuric acid tower padding, the amorphous silica powder. 6, machinery, foundry sand, the main raw materials, grinding materials (sand, hard and abrasive paper, abrasive paper, abrasive cloth, etc.). 7, electronic: high purity silicon metal, communications with optical fiber, etc. 8, rubber, plastic, packing (can improve the wear resistance). 9, coating, packing (acid can improve the coating). 10, aviation, spaceflight, its molecular chain structure, crystal shape and crystal lattice change rule, make its have the high temperature resistant, small thermal expansion coefficient, high insulation, corrosion resistance, piezoelectric effect, resonance effect, and its unique optical properties.
Aviation kerosene like jet fuel a 1, jet fuel ts 1, d2/en590 like diesel 10 ppm (gasoil 0.001%s), diesel 50 ppm (gasoil 0.005%s), diesel 500 ppm (gasoil 0.05%s), diesel 1000 ppm (gasoil 0.1%s), diesel 2500 ppm (gasoil 0.25%s), petrol like unleaded gasoline ron 92, unleaded gasoline ron 95, unleaded gasoline ron 97, d6 residual fuel like fuel oil 3.5% 180 cst, fuel oil 3.5% 380 cst, bitumen, base oil, white spirit, recycle base oil, bio diesel, fuel oil, lng & lpg, diesel, pet coke, petrol, crude oil, fmcg like raw metal like steel rebar, billets & slabs, aluminum ingots, copper cathode & electrodes, low carbon ferrochrome, ferrosilicon 72% and 75%, lead, zinc, casing, tubing, drill pipes, line pipes, valves package, industrial scrap & surplus like steel, copper.
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.
Calcium silicon cored wire has the following uses: 1. It is beneficial to adjust and control the content of easily oxidizable elements and trace elements, reduce smelting cost, shorten smelting time, and accurately control the content of ingredients. 2. It can purify molten steel and partially change the nature and shape of inclusions, and improve the quality and casting state of molten steel. 3. Use the cored wire to process the molten steel, the alloy elements react smoothly in the molten steel, which can avoid secondary oxidation. After the reaction, the floating rate of the inclusions is fast, and the purification treatment effect is uniform. 4. The use of cored wire in steelmaking or cast iron production can avoid bringing gas into molten steel. 5.The scope of application covers the fields of communications, television broadcasting, computer networks, aerospace, and security monitoring systems. It plays an important role in these fields and provides stable and reliable support for signal transmission.
High Carbon Silicon-Replacement for FeSi as deoxidizer used in carbon structural steel carbon steel,alloy steel,deformed steel bar manufacturing. High Carbon Silicon 's other name is Silicon Carbon Alloy
Key Features: Chemical Composition: Silicon Carbide (SiC) Physical Properties: High hardness, low density, superior thermal shock resistance. Electrical Properties: High electrical conductivity, low dielectric loss. Thermal Properties: High thermal conductivity, excellent heat resistance. Applications: Metallurgical Industry: Lining for high-temperature furnaces. Chemical Industry: Reactor linings and catalyst supports. Electronics Industry: Semiconductor manufacturing. Mechanical Industry: High-performance mechanical components.
(1) Manganese and manganese alloy is one of the indispensable raw materials in the iron and steel industry, aluminum alloy industry, magnetic material industry and chemical industry. (2) Manganese Metal is an indispensable additive in smelting industry. Electrolytic metal manganese processing into powder is the main raw material for the production of manganese tetroxide. (3) Electrolytic manganese metal due to its high purity, low impurity characteristics, has been successfully and widely used in iron and steel smelting, non-ferrous metallurgy, electronic technology, chemical industry, environmental protection, food hygiene, electrode industry, aerospace industry and other fields. (4) The purity of electrolytic manganese is very high, its role is to increase the hardness of metal materials, the most widely used in manganese copper alloy, manganese aluminum alloy, 200 series stainless steel. Manganese in these alloys can improve the strength, toughness, wear resistance and corrosion resistance of the alloy.
Ferrosilicon alloy is a deoxidizer used in steelmaking production. It improves the shape of inclusions and reduces the content of gas elements in molten steel. It is an effective new technology to improve steel quality, reduce costs, and save aluminum. It is especially suitable for the deoxidation requirements of continuous casting molten steel. Practice has proved that it not only meets the deoxidation requirements of steelmaking, but also has desulfurization performance and has the advantages of large specific gravity and strong penetrating power. The production of silicon-aluminum ferroalloy can be divided into the following three stages 1. Generation of silicon carbide At lower temperatures, SiO2 reacts with carbon to produce silicon carbide, 2. Generation of aluminum oxide carbides and carbides In the temperature range of 1600~2000�ºC, carbon reacts with aluminum oxide to form aluminum oxide and silicon carbide; 3. Intermediate compounds such as carbides decompose silicon-aluminum-iron to form. At a higher temperature, aluminum oxide, silicon carbide, aluminum carbide and silicon dioxide react to obtain silicon-aluminum; only high-quality silicon-aluminum ferroalloy can produce high-quality silicon-aluminum iron blocks. When purchasing silicon-aluminum iron balls, you need to pay attention to Its quality, the quality of silicon aluminum iron ball has a direct impact on its application.
(1) Manganese and manganese alloy is one of the indispensable raw materials in the iron and steel industry, aluminium alloy industry, magnetic material industry and chemical industry. (2) Manganese Metal is an indispensable additive in smelting industry. Electrolytic metal manganese processing into powder is the main raw material for the production of manganese tetroxide. (3) Electrolytic manganese metal due to its high purity, low impurity characteristics, has been successfully and widely used in iron and steel smelting, non-ferrous metallurgy, electronic technology, chemical industry, environmental protection, food hygiene, electrode industry, aerospace industry and other fields. (4) The purity of electrolytic manganese is very high, its role is to increase the hardness of metal materials, the most widely used in manganese copper alloy, manganese aluminium alloy, 200 series stainless steel. Manganese in these alloys can improve the strength, toughness, wear resistance and corrosion resistance of the alloy.
1.Ferro silicon is often used as deoxidizer in steel making. 2.Ferro silicon also can be used as alloy elements join agent,which is widely used in low alloy steel,non-ferrous metal,bearing steel,heat-resistant steels and electrician silicon steel. 3.Ferro silicon commonly used as a reductant in ferroalloy production and chemical industry. 4.In iron industry,ferro silicon often used as inoculant and nodulizer and deoxidizer.
Ferro-Silico-Aluminum is a deoxidizer used in steelmaking production. It improves the shape of inclusions and reduces the content of gas elements in molten steel. It is an effective new technology to improve steel quality, reduce costs, and save aluminum. It is especially suitable for the deoxidation requirements of continuous casting molten steel. Practice has proved that it not only meets the deoxidation requirements of steelmaking, but also has desulfurization performance and has the advantages of large specific gravity and strong penetrating power.
Alloy cored wire plays an important role in the smelting process. The specifications and sizes of cored wire are customized based on specific smelting processes and application requirements. The selection of appropriate materials and diameter is based on the operating environment and engineering specifications. Cored wire can provide different tensile strengths and load-bearing capacities to meet the demands of the smelting process. Cored wire is used in the manufacturing of refractory materials and as electrodes in electric arc furnaces, among other applications. Its high strength, corrosion resistance, and stability make it an indispensable material in the metallurgical industry.
Silicon carbide is composed of carbon and silicon elements. It has many excellent properties, making it widely used in various fields. With outstanding high temperature resistance, it can withstand temperatures above 1600�°C. Silicon carbide can be used as a refining agent in the steelmaking process. It provides high-temperature reduction, helping to remove impurities and oxides from the steel, improving its quality and purity. Due to its unique properties, silicon carbide finds wide application in areas such as abrasive tools, high-temperature equipment, steelmaking, chemical industry, optical components, and solar energy. Additionally, silicon carbide is also used in the production of ceramic products, thermal barrier coatings, and catalysts.
Silicon carbide is composed of carbon and silicon elements. It has many excellent properties, making it widely used in various fields. With outstanding high temperature resistance, it can withstand temperatures above 1600�°C. Silicon carbide can be used as a refining agent in the steelmaking process. It provides high-temperature reduction, helping to remove impurities and oxides from the steel, improving its quality and purity. Due to its unique properties, silicon carbide finds wide application in areas such as abrasive tools, high-temperature equipment, steelmaking, chemical industry, optical components, and solar energy. Additionally, silicon carbide is also used in the production of ceramic products, thermal barrier coatings, and catalysts.
Various models can be customized 1.Ferromanganese is an essential deoxidizer and desulfurizer in steelmaking industry. 2.Good need in smelting, steel deoxidation desulphurization processing, and ferromanganese is a cheap deoxidizer, 3.such as ferromanganese we can achieve the purpose of the desulfurization very well, effectively reduce the content of harmful elements in steel, improve the quality of steel.
Various models can be customized. 1. It is beneficial to adjust and control the content of easily oxidizable elements and trace elements, reduce smelting cost, shorten smelting time, and accurately control the content of ingredients. 2. It can purify molten steel and partially change the nature and shape of inclusions, and improve the quality and casting state of molten steel. 3. Use the cored wire to process the molten steel, the alloy elements react smoothly in the molten steel, which can avoid secondary oxidation. After the reaction, the floating rate of the inclusions is fast, and the purification treatment effect is uniform. 4. The use of cored wire in steelmaking or cast iron production can avoid bringing gas into molten steel.
Various models can be customized 1. The purity of electrolytic manganese is very high. Its function is to increase the hardness of the composite metal material. Manganese can improve the strength, toughness, wear and corrosion resistance of certain alloys. 2. Manganese is an indispensable additive in the smelting industry. After electrolytic manganese is processed into powder, it is the main raw material for the production of manganese trioxide.
Various models can be customized. Alloy silicon balls are commonly used silicon-based alloy additives in the alloy preparation process. They are usually in the form of spherical particles and consist of a high proportion of silicon elements. They can be used as deoxidizers and reducers. During the steelmaking process, alloy silicon balls react with oxygen, reducing it to gaseous form, thereby reducing the oxygen content and improving the purity and quality of the steel. The presence of silicon increases the hardness, strength, and wear resistance of the steel. By controlling the amount of alloy silicon balls added, specific performance requirements of the steel can be met. Additionally, the addition of alloy silicon balls can improve the fluidity and wetting ability of the steel, facilitating smooth operation and uniform distribution of the molten steel during the smelting process. Alloy silicon balls exhibit good thermal stability, allowing them to operate effectively in high-temperature environments. Their inclusion enhances smelting efficiency, reduces energy consumption, and lowers production costs, ultimately improving the efficiency and quality of steel production.
