We are the principal exporters of the following products
Anthracite
Currently, we offer typical Duff (0-10mm), Peas (10-25mm) and Nuts (25 -50mm) sizing.
Anthracite is a type of coal that is known for its high carbon content, low moisture content, and high energy density. It has several industrial applications due to its unique properties. Contact us for more information.
Here are some of the industrial applications of anthracite:
Fuel Source
Anthracite is primarily used as a fuel in industrial settings. Its high carbon content and energy density make it a valuable fuel source for various industries, including power generation, heating systems, and cement manufacturing. It is commonly used in coal-fired power plants to produce electricity.
Water Filtration
Anthracite is widely used in water filtration systems, especially in the treatment of drinking water and wastewater. Its porous nature allows it to effectively remove impurities and contaminants from water, including sediment, organic compounds, and certain heavy metals. Anthracite is often used as a filter medium in multi-layer filtration systems.
Carbon Additive
Anthracite is used as a carbon additive in the production of steel and iron. It is added to the mixture of raw materials in the blast furnace or electric arc furnace to increase the carbon content. The high carbon content of anthracite helps in reducing impurities and achieving the desired carbon levels in the final product.
Reducing Agent
Anthracite can act as a reducing agent in certain chemical processes. It is used in the production of various chemicals, such as carbon black and activated carbon. In these processes, anthracite is employed to remove oxygen from the chemical compounds, facilitating the desired reactions.
Carbon Electrodes
Anthracite is used in the manufacturing of carbon electrodes, which are essential components in electric arc furnaces. Carbon electrodes are used for melting and refining metals, particularly in the production of steel. Anthracite’s high carbon content and low ash content make it suitable for producing high-quality electrodes that can withstand the high temperatures and electrical currents in these furnaces.
Manufacture of Carbon Brushes
Anthracite is also utilized in the production of carbon brushes, which are crucial components in electric motors and generators. Carbon brushes are responsible for transferring electrical current between stationary and rotating parts of these machines. Anthracite’s conductivity, durability, and low friction properties make it suitable for this application.
It’s worth noting that the industrial applications of anthracite can vary depending on the specific requirements and industries involved. While these applications represent some of the common uses of anthracite, ongoing research and technological advancements may lead to the discovery of new applications in the future.
Magnetite
Magnetite is a mineral and one of the main iron ores, known for its strong magnetic properties. It has several industrial applications due to its unique characteristics. Contact us for more information.
Here are some of the industrial applications of magnetite:
Iron and Steel Production
Magnetite is a significant source of iron ore and is used as a raw material in the production of iron and steel. It is particularly valued for its high iron content and magnetic properties, which make it suitable for efficient extraction and processing. Magnetite is often used in the form of magnetite concentrate or pellets in blast furnaces and direct reduction processes to produce iron and steel.
Dense Media Separation
Magnetite is widely used in the process of dense media separation (DMS), which is a mineral processing technique used to separate valuable minerals from waste material. In DMS, magnetite is used as a dense medium in suspension to create a specific gravity that allows the separation of minerals based on their density. This technique is commonly employed in coal and mineral mining industries.
Coal Washing
Magnetite is utilized in coal washing processes to remove impurities and achieve a higher-grade coal product. In this application, magnetite is added to the coal-water mixture to increase its density and facilitate the separation of coal from impurities through float-sink methods. The use of magnetite in coal washing helps improve the efficiency of coal beneficiation and reduce environmental impacts.
Catalysts and Pigments
Magnetite nanoparticles have gained attention in various industrial applications, including catalysis and pigments. Due to their unique magnetic and catalytic properties, magnetite nanoparticles are used as catalysts in chemical reactions, such as the production of ammonia or in Fischer-Tropsch synthesis. Additionally, they are employed in the formulation of pigments for paints, coatings, and magnetic inks.
Magnetite in Electronics and Data Storage
Magnetite nanoparticles are utilized in various electronics and data storage applications. They are employed in magnetic recording media, such as hard drives and magnetic tapes, where their magnetic properties allow for high-density data storage. Magnetite nanoparticles are also used in certain electronic devices, such as magnetic sensors and memory devices.
Water Treatment and Filtration
Magnetite has applications in water treatment and filtration processes. It can be used as a magnetically responsive medium in magnetic water treatment systems, which aim to reduce scale formation and improve water quality. Additionally, magnetite can be incorporated into filtration systems to remove heavy metals and contaminants from water due to its magnetic properties.
These are some of the industrial applications of magnetite, highlighting its versatility and usefulness in various sectors. Continued research and development may uncover additional applications for magnetite in the future.
Ferro Manganese FeMn
Ferro manganese is an alloy composed of iron and manganese. It is primarily used as an additive in the production of steel to enhance its properties. Contact us for more information.
Here are some of the industrial applications of ferromanganese:
Steel Production
The primary application of ferromanganese is in the production of steel. It is added to steel in varying proportions to improve its strength, hardness, and resistance to wear and tear. Ferro manganese acts as a deoxidizer, desulfurizer, and alloying element, contributing to the overall quality and performance of the steel. It helps control the formation of undesirable impurities, such as oxygen and sulfur and promotes the formation of desirable alloys that enhance the steel’s properties.
Stainless Steel Production
Ferro manganese is commonly used in the production of stainless steel. Stainless steel requires high levels of chromium for corrosion resistance. Ferro manganese, when added to stainless steel, provides a source of manganese, which helps stabilize the austenitic structure and enhances the overall corrosion resistance of the stainless steel product.
Non-ferrous Alloy Production
Ferro manganese is also used in the production of various non-ferrous alloys. It is added to alloys like aluminum, copper, and titanium to improve their strength, hardness, and other mechanical properties. The addition of ferro manganese helps refine the grain structure and enhances the alloy’s resistance to corrosion and wear.
Welding Electrodes
Ferro manganese is utilized in the manufacturing of welding electrodes. These electrodes are used in arc welding processes to join metals together. The inclusion of ferro manganese in welding electrodes improves their arc stability, promotes the formation of sound welds, and enhances the mechanical properties of the welded joint.
Chemical Industry
Ferro manganese finds applications in the chemical industry as a source of manganese. Manganese is used in the production of various chemicals, including batteries, fertilizers, pigments, and ceramics. Ferro manganese provides a convenient and controlled source of manganese for these applications.
It’s worth noting that the specific application and composition of ferro manganese can vary depending on the desired steel or alloy properties and the requirements of different industries. Different grades of ferro manganese, with varying manganese and iron content, may be used based on the specific application and desired results.
Overall, the industrial applications of ferro manganese revolve around its role as an alloying element in steel and non-ferrous alloys, contributing to improved mechanical properties, corrosion resistance, and other desirable characteristics in the final products.
Ferro Molybdenum
Ferro molybdenum is an alloy consisting primarily of iron and molybdenum. It is widely used in various industrial applications due to its unique properties. Contact us for more information.
Here are some of the industrial applications of ferro molybdenum:
Steel Production
The primary application of ferro molybdenum is in the production of steel. It is added to steel as an alloying element to improve its strength, hardness, and resistance to high temperatures. Ferro molybdenum enhances the hardenability of steel, making it suitable for applications requiring increased strength and toughness. It is commonly used in the production of high-strength low-alloy (HSLA) steels, stainless steels, and tool steels.
Heat-Resistant Alloys
Ferro molybdenum is utilized in the production of heat-resistant alloys, particularly those used in high-temperature applications. These alloys, often referred to as molybdenum-containing superalloys, exhibit excellent resistance to corrosion, oxidation, and creep at elevated temperatures. They are used in aerospace components, turbine blades, furnace parts, and other high-temperature environments.
Cast Iron Production
Ferro molybdenum is added to cast iron to improve its mechanical properties and performance. It enhances the strength, wear resistance, and hardenability of cast iron, making it suitable for applications that require high strength and durability, such as automotive components, machinery parts, and heavy-duty equipment.
Chemical Industry
Ferro molybdenum finds applications in the chemical industry as a source of molybdenum. Molybdenum is used as a catalyst in various chemical reactions, particularly in the production of sulfuric acid, ammonia, and other chemicals. Ferro molybdenum provides a controlled source of molybdenum for these applications, contributing to the efficiency of the chemical processes.
Oil and Gas Industry
Ferro molybdenum is employed in the oil and gas industry for its corrosion resistance and high-temperature properties. It is used in the manufacturing of components for oil rigs, drilling equipment, valves, and pipelines that are exposed to harsh environments, including high temperatures, corrosive fluids, and pressure.
Electrical and Electronic Applications
Ferro molybdenum is utilized in certain electrical and electronic applications. It can be found in electrical contacts, switches, and other components that require high conductivity, resistance to heat, and excellent electrical contact properties.
It’s important to note that the specific application and composition of ferro molybdenum can vary depending on the desired alloy properties and the requirements of different industries. Different grades of ferro molybdenum, with varying molybdenum and iron content, may be used based on the specific application and desired results.
Overall, the industrial applications of ferro molybdenum are diverse, with a focus on improving the strength, corrosion resistance, and high-temperature properties of alloys used in steel production, heat-resistant applications, cast iron manufacturing, and other industries.
Ferro Chrome
Ferro chrome is an alloy composed of iron and chromium. It is widely used in various industrial applications due to its unique properties. Contact us for more information.
Here are some of the industrial applications of ferro chrome:
Stainless Steel Production:
The primary application of ferro chrome is in the production of stainless steel. Stainless steel requires a high chromium content for its corrosion resistance properties. Ferro chrome is added to stainless steel in varying proportions to provide the necessary chromium content. The addition of ferro chrome enhances the stainless steel’s resistance to corrosion, oxidation, and wear, making it suitable for a wide range of applications such as kitchen appliances, automotive parts, and construction materials.
Alloy Steels
Ferro chrome is used as an alloying element in the production of various alloy steels. Alloy steels are steel grades that contain other elements, such as chromium, molybdenum, and nickel, to improve their mechanical properties and performance. Ferro chrome contributes to the hardenability, strength, and heat resistance of alloy steels, making them suitable for applications that require high strength, toughness, and wear resistance, such as automotive components, machinery parts, and tools.
Cast Iron Production
Ferro chrome is added to cast iron to modify its properties and enhance its performance. It improves the cast iron’s wear resistance, hardness, and thermal conductivity. Ferro chrome is commonly used in the production of high-chromium cast iron, which is utilized in applications that require wear resistance, such as engine parts, pumps, valves, and machinery components.
Refractory Materials
Ferro chrome finds application in the production of refractory materials. Refractories are heat-resistant materials used to line high-temperature furnaces, kilns, and reactors. The addition of ferro chrome to refractory materials enhances their resistance to high temperatures, corrosion, and thermal shocks, improving their longevity and performance in harsh environments.
Welding Consumables
Ferro chrome is utilized in the manufacturing of welding consumables, such as electrodes and filler wires. These consumables are used in welding processes to join metals together. Ferro chrome aids in improving the weldability and mechanical properties of the weld, ensuring strong and reliable joints.
Chemical Industry
Ferro chrome is used in various chemical applications, such as the production of pigments and catalysts. Chromium compounds derived from ferro chrome are utilized in the manufacture of pigments for paints, inks, and dyes. Additionally, certain chromium-containing compounds act as catalysts in chemical reactions, including those used in the production of synthetic fibers and plastics.
The specific application and composition of ferro chrome can vary depending on the desired properties and requirements of different industries. Different grades of ferro chrome, with varying chromium and iron content, may be used based on the specific application and desired results.
Please note that market conditions and prices for ferro chrome can vary depending on factors such as global supply and demand, production costs, and currency exchange rates. It’s advisable to consult industry publications, market reports, or contact metal suppliers, traders, or producers for up-to-date pricing information.
Coke Breeze
Coke breeze, also known as coke fines or coke dust, is a byproduct of coke production from coal. It consists of small particles of coal that are generated during the coke-making process.
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Coke breeze has several industrial applications, including:
Fuel for Industrial Furnaces
Coke breeze is often used as a fuel in industrial furnaces, such as cement kilns and steelmaking furnaces. Its high carbon content and energy density make it suitable for providing heat and energy in these processes. Coke breeze can be burned directly or mixed with other fuels to achieve the desired combustion characteristics and temperature control.
Sintering Process
Coke breeze is used in the sintering process, which is a method of agglomerating fine iron ore particles into a porous mass called sinter. Coke breeze serves as a fuel and a reducing agent in the sintering process, where it helps in bonding the iron ore particles together and facilitates the removal of oxygen from the iron ore.
Foundry Applications
Coke breeze is utilized in foundries for various applications. It can be used as a fuel in cupola furnaces, where it provides heat for melting metals like iron and steel. Additionally, coke breeze can be mixed with other materials to form foundry sands used in casting molds.
Soil Amendment
Coke breeze can be used as a soil amendment in agricultural applications. Due to its high carbon content, coke breeze can improve soil structure and provide slow-release carbon for microbial activity. It can also help in enhancing soil fertility and reducing soil acidity in certain cases.
Carbon Source for Chemical Processes
Coke breeze can be used as a carbon source in chemical processes that require a high-carbon input. It can be employed in processes such as carbon black production, water gas shift reaction, and other chemical reactions that require a carbon-rich material.
Carbon Electrodes and Carbon Products
Coke breeze can be processed and further refined to produce carbon electrodes used in electric arc furnaces and other industrial applications. It can also be utilized in the production of carbon products, such as graphite electrodes, carbon blocks, and carbon brushes, which find applications in electrical equipment and machinery.
It’s important to note that the specific industrial applications and uses of coke breeze can vary depending on the specific requirements of different industries and processes. Additionally, the availability and suitability of coke breeze as an industrial material may vary based on factors such as its quality, particle size, and impurity content




