window.dataLayer = window.dataLayer || []; function gtag(){dataLayer.push(arguments);} gtag('js', new Date()); gtag('config', 'G-5ZQ470F3WP');

Product Series

Process products of various contents and particle sizes according to customer requirements
Adequate and stable supply of goods, timely delivery.

View All Products

Focus areas

Global one-stop ferroalloy solution provider, committed to the production and sales of ferroalloys and refractory materials worldwide

Technical Service

We provide product support to global customers with extensive industry experience, offering complete sets of cast and steel ferroalloy products for our clients.

On demand processing

Process products of various contents and particle sizes according to customer requirements. Won unanimous praise and trust from domestic and foreign customers

Quality Assurance

Strictly adhere to the requirements of ISO9001:2015 quality management system and faithfully serve every customer at home and abroad.

Stable supply of goods

Deep cooperation with large domestic steel mills, direct supply from factories, sufficient and stable supply, timely delivery, and guaranteed quality

Serving the world

Iron alloy export license enterprises approved by the Ministry of Commerce,Quickly serve customers from all over the world.

Strong comprehensive strength

Adhering to the concept of providing excellent products, reasonable prices, timely delivery time, and fast after-sales support services, we faithfully serve every customer at home and abroad.
Strong comprehensive strength

Reouest For Quote

  • Thank you for the enquiry - we will be in touchwith you shortly.
  • Send Request

About Wenhao

Global one-stop ferroalloy solution provider, committed to the production and sales
of ferroalloys and refractory materials worldwide.

Anyang Wenhao Metal Materials Co., Ltd.

Anyang Wenhao Metal Materials Co.,Ltd is a professional ferroalloy and refractory material supplier located in Qugou town of Anyang city, which is called “the first town of ferroalloy in China”. With a construction area of 6,000 square meters and a team of high qualified employees, We are engaged in providing a variety of products for steelmaking, foundry, refractory, aluminum and other indutries. And the main products include: silicon metal, polysilicon, ferrosilicon, silicon carbide,carbon raiser, calcium silicon,high carbon silicon, inoculant, nodularizer, cored wires, ferrochrome, ferromanganese, silicon slag and so on. The quality of our products are strictly controlled in accordance with ISO 9001 Certificate. With years of experience in ferroalloy industry, our company has developed rapidly and products have been exported to Southeast Asia, Korea, Japan and Europe, we look forward to cooperate with overseas customers with sincerity, faith and mutual benefit.Let’s grow and thrive together in the dynamic world of international trade.  

Gallery

Photos about our workshop, packing and transportation.

News

Focusing on providing ferroalloy smelting, refractory material production and sales.

How much do you know about silicon carbide?

How much do you know about silicon carbide?

Silicon carbide is made of quartz sand, petroleum coke, and silica as raw materials, and is smelted at high temperature in an electric furnace. It has the advantages of high hardness, stable chemical properties, highthermal conductivity, low thermal expansion coefficient, and good wear resistance. So what are the characteristics of silicon carbide?Characteristics of silicon carbide:1. Silicon carbide powder is coated on the inner wall of the turbine impeller or cylinder body by a special process, which can improve its wear resistance and extend its service life by 1 to 2 times;2. The refractory material made of it is resistant to thermal shock, small in size, light in weight, high in strength, and has good energy-saving effect.3. Low-grade silicon carbide is an excellent deoxidizer. It can speed up steelmaking, facilitate control of chemical composition, and improve the quality of steel.4. Silicon carbide has a high hardness, with a Mohs hardness of 9.5, second only to diamond. It has excellent thermal conductivity and is a semiconductor that can resist oxidation at high temperatures.5. Silicon carbide is an abrasive containing more than 99% silicon carbide. Its hardness is between corundum and diamond, and its mechanical strength is higher than corundum, so it is mainly used to grind carbide tools.6. Silicon carbide has good self-sharpening properties and is mostly used to process carbide, titanium alloy and optical glass. It is also used to hone cylinder liners and finely grind high-speed steel tools.

How to smelt metallic silicon?

How to smelt metallic silicon?

How to smelt silicon metal?Silicon MetalMetallic silicon, also known as industrial silicon or crystalline silicon, is usually produced by reducing silicon dioxide with carbon in an electric furnace. Metallic silicon is a product smelted from quartz and coke in an electric furnace. The main component silicon content is about 98% (in recent years, 99.99% Si content is also included in metallic silicon), and the remaining impurities are iron and aluminum. , calcium, etc. Its main uses are as additives for non-iron-based alloys and starting materials for the production of semiconductor silicon and organic silicon.标题 3In our country, metallic silicon is usually classified according to the content of its three main impurities: iron, aluminum, and calcium. According to the percentage content of iron, aluminum, and calcium in metallic silicon, metallic silicon can be divided into different grades such as 553, 441, 411, 421, 3303, 3305, 2202, 2502, 1501, and 1101. (About the source of metal silicon numbers: The 1st and 2nd codes represent the percentage content of iron and aluminum, and the 3rd and 4th digits represent the calcium content. For example, 553 represents the iron, aluminum, and calcium content of 5% and 5%. , 3%; 3303 represents that the content of iron, aluminum and calcium is 3%, 3%, 0.3%)Metal silicon is produced using the carbothermal method, which is a method of smelting silica and carbonaceous reducing agents in a submerged arc furnace. The purity of the silicon produced in this way is 97% to 98%, and this kind of silicon can generally be used for metallurgical purposes. If you want to obtain higher-grade silicon, you need to refine it to remove impurities to obtain metallic silicon with a purity of 99.7% to 99.8%.

Ferrosilicon follow-up international market trends

Ferrosilicon follow-up international market trends

Weak domestic demand for downstream steel is weighing on spot prices of ferrosilicon in India, prompting producers to reduce output, while ferrosilicon was already under pressure due to rising electricity prices.        On November 26, Argus assessed the ex-factory price of 70# ferrosilicon at about 107,000-109,000 rupees/ton. The ex-factory price fell by about 1,000 rupees/ton that day. Current domestic ex-works prices fluctuate at Rs 107,000-108,000/ton, down from Rs 109,000-110,000/ton on November 12, when prices started a downward trend due to weak domestic demand.        A slowdown in steel industry purchases is putting more pressure on near-term prices for ferrosilicon, which is already suffering from weak global demand. With no signs of recovery in inquiries and production costs, the trend is likely to continue in the short term, putting pressure on Indian producers, sources said. Ferrosilicon is used as an additive to increase the hardness and strength of finished steel.        Producers said limited construction activity, cold weather and poor infrastructure in Meghalaya, India's main coal-producing state, also affected output.        Sources said that after the production cut, Meghalaya's ferrosilicon production is now around 4,000-5,000 tonnes/month, compared with 5,000-6,000 tonnes/month before the power tariff hike was announced.        Data from the World Steel Association (WSA) showed that India's crude steel production in October was 12.5 million tons, a year-on-year increase of 1.7%.        A possible increase in ferrosilicon prices in Bhutan, India's main supplier, may also increase pressure on alloy demand.        According to Indian market participants, Bhutan has a ferrosilicon production capacity of 15,000 to 16,000 tonnes per month, and the country has been grappling with power shortages due to reduced water and electricity supplies due to low water levels. If Bhutan imports electricity from India, its production costs will rise, which may lead to a further increase of 2,000 rupees per ton in ex-factory prices to 109,000 to 111,000 rupees per ton. This will also reduce the competitiveness of Bhutanese ferrosilicon in the Indian market, forcing Bhutanese ferrosilicon producers to look for alternatives such as China, Indonesia, Malaysia and Hong Kong, they added.

The application of nodularizer in industrial production

The application of nodularizer in industrial production

Nodularizer is an important auxiliary agent widely used in industrial production.  1. Application in the metallurgy industry: As metal alloy added in molten iron in order to get nodular graphite,can improve the toughness and strength of ductile iron, reduce casting defects, and improve product quality.Improve the toughness and strength of ductile iron. The chemical components in the spheroidizing agent can react with the liquid metal to reduce its surface tension, thereby reducing the generation of burr, hole and delamination,makes the metal liquid easier flow and fill the mold cavity, thus Improve the fluidity of liquid metal and promote the formation of spherical particles on the surface of casting parts.Reduce casting defects. It can improve the surface quality of the cast parts, make it easier for bubbles to rise and discharge, thereby reducing the generation of pores and other defects, and make the surface of the cast parts more smooth.Improve the structure and properties of metal, commonly used in spheroidization process of iron ore, copper ore and manganese ore. For iron ore it could improve the strength and hardness of the pellets, reduce the adhesion and cohesiveness of the powder, and thus improve the fluidity and compressibility of the pellets. For copper ore and manganese ore it could improve the reducibility and calcination of ore,  accelarate the speed of ore reduction reaction.2. Application in the ceramic industry: Spheroidizing agents in ceramic raw materials can help improve the overall strength and wear resistance of products, while reducing the rate of breakage during manufacturing.This is essential for the production of ceramic tiles, ceramic utensils and other products, through the addition of spheroidizing agent, can make the ceramic material in the sintering process more uniform contraction, to avoid the temperature gradient caused by cracking and deformation phenomenon, so as to improve the product molding quality and consistency.3. Application in the polymer materials and plastics industry: In the plastic processing process, the addition of spheroidizing agent can improve the flow and processing performance of raw materials, make plastics easier to shape, and reduce the production of defects and bubbles in the process of injection molding, extrusion and other processing. This not only improves the surface smoothness and mechanical properties of the product, but also helps to reduce production costs and improve production efficiency.4. The application in the chemical and coating industry: In the chemical reaction process, the nodulating agent can be used as a catalyst or stabilizer to promote the reaction or regulate the rate and selectivity of the reaction. In coating manufacturing, the addition of spheroidizing agent can enhance the adhesion and weather resistance of the coating, improve the gloss and durability of the coating, and make it more suitable for a variety of complex application scenarios.

Applications of Silicon Carbide (SiC) in the Casting Industry

Applications of Silicon Carbide (SiC) in the Casting Industry

Introduction:Silicon Carbide (SiC), a synthetically produced material, has gained considerable attention in the casting industry due to its ability to refine the microstructure of cast iron. With its high thermal conductivity, hardness, and chemical stability, SiC plays a crucial role in the production of high-quality cast iron parts.Applications of SiC in Casting:Reduction of Chill Tendency:SiC effectively reduces the chill tendency of cast iron, ensuring that thin and thick sections of the casting have minimal differences in microstructure and hardness.Prevention of Overcooling Structures:By controlling the cooling rate, SiC helps in avoiding overcooling structures, which can lead to defects in the cast iron.Reduction of Wall Thickness Sensitivity:The use of SiC minimizes the sensitivity to the wall thickness of cast iron, resulting in a more uniform microstructure and hardness profile.Nucleation of Eutectic Cells:SiC promotes the nucleation of eutectic cells, increasing the number of eutectic clusters and contributing to a finer microstructure.Formation of Type A Graphite:The presence of SiC in the casting process encourages the formation of Type A graphite, which is fine and uniformly distributed, enhancing the mechanical properties of the cast iron.Cost-Effectiveness and Efficiency:SiC is a cost-effective material that can reduce production costs and increase efficiency in the casting industry.Mechanism of SiC in Casting:The mechanism by which SiC influences the casting process involves its reaction with the molten iron to form a protective layer of SiO2, which slows down the dissolution of SiC and allows for a controlled release of Si and C into the iron. This controlled release promotes the formation of graphite and refines the microstructure of the cast iron.Conclusion:The integration of Silicon Carbide in the casting process has proven to be beneficial in producing high-quality cast iron with improved mechanical properties and reduced production costs. As the casting industry continues to evolve, the application of SiC is expected to expand, further enhancing the capabilities and output of the industry.

Proper Use and Application of Metallic Silicon 441

Proper Use and Application of Metallic Silicon 441

Metallic Silicon 441 is distinguished by its high silicon content, typically over 98%. It is utilized in the production of high-purity semiconductor materials, the manufacturing of specialty alloys, and as an essential additive in the steel industry. Its applications extend to the electronics industry for its semiconductor properties and as a reducing agent in metallurgy.Dosage and Preparation:The addition of Metallic Silicon 441 should be determined based on specific smelting or casting requirements. Generally, the addition rate ranges from 1% to 5%. It is imperative that the Silicon 441 used is dry and free from impurities to ensure its effectiveness and avoid unwanted reactions.Methods of Addition:During the smelting or casting process, to ensure even distribution of Metallic Silicon 441 in the furnace or molten metal, it can be added through spraying or manual introduction. The temperature and holding time of the furnace or molten metal must be controlled during the addition process to allow for adequate reaction and dissolution of Silicon 441.Safety Precautions:Safety is paramount when handling Metallic Silicon 441. Workers should avoid direct contact with the material and molten metal, wearing appropriate personal protective equipment, and adhering to safety protocols.Adjustments and Monitoring:Continuous monitoring of the process is necessary to adjust the proportion of Silicon 441 as needed. Adjustments may be required based on the actual conditions and outcomes of the smelting or casting process.Conclusion:The proper use of Metallic Silicon 441 requires an understanding of its properties, the correct dosage, and careful application methods. By following these guidelines, industries can maximize the benefits of this high-purity silicon material, contributing to the quality and efficiency of their products.

Market and Economic Analysis of Ferrosilicon

Market and Economic Analysis of Ferrosilicon

Global Market OverviewThe global ferrosilicon market is a multifaceted industry, driven by the demand from the steel production sector. Ferrosilicon, an alloy of iron and silicon, is predominantly used as a reducing agent in the smelting of various metals and as a deoxidizing agent in steelmaking. The market is characterized by the production of different grades of ferrosilicon, each tailored to meet specific industrial requirements.The demand for ferrosilicon is directly linked to the health of the global steel industry. With the growth of industrialization in emerging economies, the consumption of steel has been on the rise, subsequently boosting the demand for ferrosilicon. According to recent market research, the global ferrosilicon market is projected to grow at a steady pace, influenced by the expansion of end-use industries such as construction, automotive, and electrical and electronics.Geographically, the market can be segmented into key regions such as Asia-Pacific, Europe, North America, South America, and the Middle East and Africa. Asia-Pacific, with its large steel production capacity, particularly in China, India, and Japan, accounts for the lion's share of the global ferrosilicon market. Europe and North America follow suit, driven by the presence of established steel and metallurgical industries.Economic Factors Affecting the IndustrySeveral economic factors significantly influence the ferrosilicon industry, including:Raw Material Prices: The cost of raw materials such as silicon ore, coke, and steel scraps has a direct impact on the production cost of ferrosilicon. Fluctuations in the prices of these inputs can affect the profitability of ferrosilicon producers.Energy Costs: Given that the production of ferrosilicon is an energy-intensive process, the cost of electricity is a critical economic factor. Regions with lower energy costs tend to have a competitive advantage in the production of ferrosilicon.Global Steel Market: As the primary consumer of ferrosilicon, the global steel market's performance directly affects the demand for ferrosilicon. Economic growth, construction activities, and manufacturing output are key indicators of the steel market's health.Trade Policies and Tariffs: Trade policies, including tariffs and trade agreements, can influence the cost and availability of ferrosilicon in different regions. Protectionist measures can lead to increased costs for import-dependent markets.Currency Exchange Rates: Being a globally traded commodity, the prices of ferrosilicon are subject to fluctuations in currency exchange rates. This can affect the competitiveness of ferrosilicon producers in the international market.Technological Advancements: Innovations in the production process and the development of new applications for ferrosilicon can create new market opportunities and influence the industry's growth trajectory.In conclusion, the ferrosilicon market is subject to a complex interplay of economic factors that determine its dynamics and future prospects. A careful analysis of these factors is essential for understanding the market's behavior and making informed strategic decisions.

Our qualifications

Focusing on providing ferroalloy smelting, refractory material production and sales.

If you have any questions, please contact us immediately! In order to satisfy our
customers, we strive to take solutions.
  • Send Request