Silicon metal 97 is a type of silicon metal alloy that is composed of approximately 97% silicon, with small amounts of iron, aluminum, and other trace elements. Silicon metal 97 is often used in industries where lower purity silicon is acceptable, such as the production of silicones, silanes, and other chemicals. It may also be used as a deoxidizing agent in the steel making industry or as an additive in the aluminum industry.
Silicon metal 553 is a high-grade silicon metal alloy that is commonly used in the production of aluminum-silicon alloys, which are widely used in the automotive industry for engine blocks, cylinder heads, and other parts. It is also used in the production of silicones and other specialty chemicals, as well as in the production of high-tech products such as semiconductors and solar panels.
Using high-purity silicon carbide powder, formed through isostatic pressing, fired to create high-density structural components. Long lifespan, good heat dissipation performance, low friction coefficient, enhancing grinding efficiency. Lightweight, minimal centrifugal force, high grinding speed, no pollution, high product purity, improving grinding efficiency, saving costs. We adopt isostatic pressing forming method. The outer diameter of silicon carbide wear-resistant barrels can reach up to 1000mm. Large-diameter silicon carbide barrels are formed by reaction sintering, while small-diameter barrels are formed by pressureless sintering, which is more wear-resistant than reaction sintering.
Silicon Ore is an ore that drops Raw Silicon which can be used in the Circuit Fabricator to craft Basic Wafers, Advanced Wafers, or Blue Solar Wafers. It can be destroyed using any type of pickaxe, but it will only drop Raw Silicon if you use an Iron Pickaxe, Heavy Duty Pickaxe, Diamond Pickaxe, or Desh Pickaxe.
Product Description Food grade liquid silicone is used to .candy, cake and cholocate and soap mold and making artificial stone,cement and gypsum. Food grade quality silicone with nontoxic,Excellent fluidity, high tear and tensile strength, High duplication times repeated use, easy to demould,High temperature resistance and cure can be accelerated by heat Model 6210 6215 6220 6225 6230 Mixing ratio (A:B) 1:1 1:1 1:1 1:1 1:1 Hardness (Shore A)â?¥ 10 15 20 25 30 Tear-strength (kgf/c m�²)â?¥ 16 18 20 21 22 Viscosity (A/B mixed 25�°C mpa.S) 8000�±2000 8000�±2000 10000�±2000 10000�±2000 10000�±2000 Shrinkagerate (%)â?¤ 0.1 0.1 0.2 0.1 0.1 Elongation(%) 500 480 450 450 400 How to use: 1.A and B must be mixed evenly into a clean plastic or metal container, The bottom and walls of the container must be scraped well to ensure that the silicone is mixed with the curing agent. 2.The pre-operation time of the mixed is 30-40 minutes at room temperature, and the product prototype is poured by vacuum defrosting.The product can be cured completely at room temperature of 3-4 hours and heated at 80-120�ºC for 30 minutes. 3. When pouring or brushing mold for medium or large products, it is recommended to pour or brush 2-3mm thick silica gel on the surface of the product to fully and completely contact with the prototype. Package: 10KG, 20KG, 200KG or according to customer requirements.
Silicon metal is a product of high quality silicon ore and coke smelted in an electric furnaces. Used in electro, metallurgy and chemical industry. It is silver gray or dark gray powder with metallic luster, which be of high melting point, good heat resistance, high resistivity and superior oxidation resistance, it's called "industrial glutamate", which is an essential basic raw material in hi-tech industry. Product use 1) Widely applied to refractory material and power metallurgy industry to improve the heat resistance, wear resistance and oxidation resistance. 2) In the chemical line of organic silicon, industrial silicon powder is basic raw material that high polymer of organic silicon formatting. 3) Industrial silicon powder is sublimated into monocrystalline silicon, which is widely used in highttech field as an essential raw material for integrated circuit and electronic element. 4) In metallurgy and foundry line, industrial silicon powder is regarded as to be iron base alloy additive, the alloy pharmaceutical of silicon steel, thus improve the steel hardenability. 5) These are used in high-temperature material production in order to manufacture enamels and pottery. These also cater the demands of semiconductor industry by producing ultra-pure silicon wafers.
High Purity Silicon Metal Powder Grade 3N-1 3N-2 4N 5N Specification Element content Si 99.7% 99.9% 99.99% 99.999% Fe 0.05%
THE ROLE OF FERROSILICON IN STEELMAKING In steelmaking, ferrosilicon is used for: 1. Product performance Ferrosilicon is a convenient way of adding silicon as an alloying element, to improve various properties of the final steel. 2. Slag reduction In the manufacture of stainless steels, the presence of silicon reduces chromium oxides in the melt, improving the recovery of metallic chromium. 3. Deoxidation Ferrosilicon provides quick-acting removal of oxygen from the melt, so avoiding the presence of inclusion-forming oxides and avoiding loss of desirable elements. 4. Fuel Some steel mills add ferrosilicon to the melt so that it can be burnt off to get heat into the furnace, and so reduce energy costs. We can assure you of the quality of our products and the quality of our services. If you are interested in our products, please get in touch with me.
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.
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.
It is used as a deoxidiser and alloying agent in the steelmaking industry. In order to obtain a steel with a satisfactory chemical composition and to guarantee the quality of the steel, it is necessary to deoxidise it in the final stage of steelmaking. The chemical affinity between silicon and oxygen is very large, and ferrosilicon is therefore a strong deoxidising agent in steelmaking for precipitation and diffusion deoxidisation. ... It is used as an inoculant and spheroidising agent in the iron casting industry. ... Used as reducing agent in ferroalloy production.
High carbon ferrosilicon is ferrosilicon with a larger carbon content; High carbon ferrosilicon specifications and particle size: natural block, 10-100mm, powder or customized according to customer requirements. Packaging of high carbon ferrosilicon: tons of bags (1000kg/bag) or customized according to customer requirements. High carbon ferrosilicon uses: High-carbon ferrosilicon is a new type of alloy used in converters. It can replace ferrosilicon, silicon carbide, and carburizers, reduce the amount of deoxidizer, and is used in the deoxidation alloying process of converter smelting. The effect is stable, and the chemical composition, mechanical properties and The quality of internal control is better than that of traditional processes. As a new type of strong composite deoxidizer, it can also be used for tempering general steel, alloy steel and special steel. In addition, as a temperature-raising agent, it can replace the more expensive traditional temperature-raising agent required in converter and open-hearth steelmaking.
High carbon ferrosilicon is ferrosilicon with a larger carbon content; High carbon ferrosilicon specifications and particle size: natural block, 10-100mm, powder or customized according to customer requirements. Packaging of high carbon ferrosilicon: tons of bags (1000kg/bag) or customized according to customer requirements. High carbon ferrosilicon uses: High-carbon ferrosilicon is a new type of alloy used in converters. It can replace ferrosilicon, silicon carbide, and carburizers, reduce the amount of deoxidizer, and is used in the deoxidation alloying process of converter smelting. The effect is stable, and the chemical composition, mechanical properties and The quality of internal control is better than that of traditional processes. As a new type of strong composite deoxidizer, it can also be used for tempering general steel, alloy steel and special steel. In addition, as a temperature-raising agent, it can replace the more expensive traditional temperature-raising agent required in converter and open-hearth steelmaking.
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.
Ferrosilicon Si 75# 72# size 10-100mm, customizable, Ferrorsilicon powder Si 69-73# size 0-1mm, customizable, China high quality ferrosilicon supplier
High carbon ferrosilicon is ferrosilicon with a larger carbon content; High carbon ferrosilicon specifications and particle size: natural block, 10-100mm, powder or customized according to customer requirements. Packaging of high carbon ferrosilicon: tons of bags (1000kg/bag) or customized according to customer requirements. High carbon ferrosilicon uses: High-carbon ferrosilicon is a new type of alloy used in converters. It can replace ferrosilicon, silicon carbide, and carburizers, reduce the amount of deoxidizer, and is used in the deoxidation alloying process of converter smelting. The effect is stable, and the chemical composition, mechanical properties and The quality of internal control is better than that of traditional processes. As a new type of strong composite deoxidizer, it can also be used for tempering general steel, alloy steel and special steel. In addition, as a temperature-raising agent, it can replace the more expensive traditional temperature-raising agent required in converter and open-hearth steelmaking.
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.
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 crystal boat The application industry of silicon carbide crystal boats Silicon carbide crystal boats are not only key components used in semiconductor device manufacturing processes, but also transmission and load-bearing tools for photovoltaic chip diffusion processes. Require materials with excellent high-temperature strength, semiconductor grade purity, high thermal conductivity, similar thermal expansion coefficient to chips, and precise size. Silicon carbide materials have broad application prospects in fields such as power electronics, optoelectronics, and microwave electronics. Performance of silicon carbide crystal boat The characteristics of silicon carbide crystal boats include high temperature tolerance and low pollution. Due to the high melting point of silicon carbide crystal boat material, it can be used in high-temperature environments. When growing crystal materials that require high-temperature conditions, silicon carbide crystal boat is a very ideal choice. Silicon carbide crystal boats meet strict and complex process and environmental requirements: good thermal conductivity; Has the same coefficient of thermal expansion as monocrystalline silicon wafers; Excellent thermal shock resistance performance; High density; High purity and excellent high-temperature strength; And can work for a long time in corrosive environments with strong acid and alkali. The chip heat treatment and doping diffusion components made of new silicon carbide materials include horizontal or vertical silicon carbide boat shaped crystal boats, silicon carbide process tubes, silicon carbide boat holders, silicon carbide cantilever paddles, etc. These products have the characteristics of low pollution and can meet the purity requirements of semiconductor materials.