🌟 Proud to introduce NanoFarm's high-quality Rice Husk Silica (RHS), now being applied in industries such as steelmaking and refractory materials! Our RHS is a product of dedicated innovation, refined from rice husks to meet demanding industrial standards. The material's unique properties provide excellent performance in high-temperature environments, making it ideal for applications that require reliability and strength. Key Specifications: - SiO₂ Content: Typically 95.2% (ranging from 92% to 98%) ensures high purity for efficient performance. - Grain Size Distribution: Optimized for various industrial needs, with the majority (65%) in the 0.1–0.5 mm range. - Physical Properties: Bulk weight between 160–290 kg/m³ provides stability and ease of handling. - Other Key Elements: Includes MgO, Al₂O₃, CaO, Fe₂O₃, and a controlled mix of K₂O and Na₂O, ensuring stability under extreme conditions. Our collaboration with a leading German company in refractory solutions, has allowed us to bring this innovative product to global industries that rely on robust and eco-friendly materials. We’re excited to support sustainable practices by transforming agricultural by-products into high-performance materials! 🌍 At NanoFarm, we’re committed to advancing sustainable solutions that contribute to a greener future while meeting industrial needs. #NanoFarm #RiceHuskSilica #SustainableMaterials #SteelIndustry #RefractoryMaterials #EcoFriendly #IndustrialInnovation #CircularEconomy
NanoFarm
Agricultural Chemical Manufacturing
Ho Chi Minh City, HCMC 18 followers
We provide refined solutions for the Renewable Silica industry with a touch of elegance.
Giới thiệu về chúng tôi
At our company, we take pride in being a leading provider of Rice Husk Silica, a material extracted from the outer layer of rice grains. Known for its high recyclability and sustainability, Rice Husk Silica not only serves as a great alternative to hazardous chemical materials but also brings significant benefits to the environment.
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Liên kết ngoài cho NanoFarm
- Ngành
- Agricultural Chemical Manufacturing
- Quy mô công ty
- 11-50 nhân viên
- Trụ sở
- Ho Chi Minh City, HCMC
- Loại hình
- Tổ chức tư nhân
Vị trí
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Chính
Ho Chi Minh City, HCMC 700000, VN
Nhân viên tại NanoFarm
Cập nhật
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The Shift to Biobased Silica: Key Drivers and Industry Transformation In recent years, the shift toward biobased silica production has marked a significant advancement in the chemical and manufacturing sectors. Although it took nearly two decades of trials and setbacks, the biobased route to synthetic amorphous silica has finally gained traction. This success story underscores not only the economic advantages of biobased silica but also its pivotal role in the future of sustainable industries.
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🌱 Green Silica: A Sustainable Shift in Materials? 🌱 As industries increasingly seek eco-friendly alternatives, green silica derived from agricultural by-products like rice husk ash (RHS) offers a promising, sustainable substitute for traditional mined silica. With high purity and lower environmental impact, it’s a win for both performance and sustainability. But how ready are companies to embrace green silica over conventional sources? What challenges might exist in scaling and adopting RHS-based silica for widespread industrial use? Would love to hear your thoughts on the practicalities and potential of integrating green silica! #Sustainability #GreenMaterials #Innovation #CircularEconomy
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RICE HUSK SILICA APPLICATION IN STEEL INDUSTRY 1. Refractory Lining: The material is often used as a component in the refractory lining of furnaces, ladles, and other high-temperature industrial equipment. Refractories are materials that can withstand very high temperatures and are used to protect equipment from the intense heat and corrosive effects of molten metal. 2. Insulating Material: Due to its low bulk density and high silica content, rice husk silica can be used as an insulating material in steelmaking furnaces. It helps to retain heat within the furnace, improving energy efficiency. 3. Slag Conditioner: In the steelmaking process, rice husk silica can be added to the slag to improve its viscosity and melting characteristics. This helps in the separation of impurities from the molten steel, leading to a higher quality final product. #Sustainable #Steel #RiceHuskSilica
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Rice husk is considered a valuable alternative raw material for use in rubber and metal industries due to several key characteristics: High Silica Content: Rice husk ash (RHA) contains a high percentage of silica, often exceeding 90%. This makes it an excellent reinforcing filler in rubber, enhancing mechanical properties such as tensile strength, tear resistance, and abrasion resistance. Abundant and Renewable: Rice husk is a byproduct of rice milling, making it a readily available and renewable resource. This helps reduce waste and promotes sustainability. Cost-Effective: Utilizing rice husk as a raw material can be more economical than sourcing traditional materials. This is particularly beneficial for industries looking to reduce production costs. Lightweight: Rice husk is lightweight, which can be advantageous in manufacturing applications where weight reduction is important without compromising strength. Eco-Friendly: Using rice husk helps minimize agricultural waste and reduces the environmental impact associated with disposal. It also aligns with green manufacturing practices. Thermal Insulation Properties: Rice husk has good thermal insulation properties, which can be beneficial in certain applications, particularly in the metal industry where temperature regulation is critical. Versatile Applications: Beyond rubber reinforcement, rice husk can be used in the production of metal composites, ceramics, and concrete. Its high silica content can enhance the properties of these materials, making them more durable and efficient. #Greensolution #Ecofriendly #Sustainble #Greentech
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Utilizing Rice Husk-Derived Silica as a Reinforcing Agent in Natural Rubber The aim of this research was to enhance natural rubber using silica derived from rice husk. The rice husk was initially washed with tap water and then treated with 0.4M hydrochloric acid at 105°C for three hours. Subsequently, the treated rice husk was incinerated at 600°C for six hours, producing white ash with a silica content of up to 99.6%. This ash was then ground using a jet mill and its properties were assessed. It was discovered that silica from rice husk ash (RHA silica) had a higher silica content, a greater specific surface area, and lower moisture content compared to the commercial silica typically used in the rubber industry. RHA silica was subsequently employed as a reinforcing filler in natural rubber. The curing characteristics of natural rubber products containing RHA silica and commercial silica were evaluated using an oscillating disk rheometer and a Mooney viscometer. The mechanical properties, including tensile strength, tear strength, and hardness, were also measured. The findings revealed that rubber products reinforced with RHA silica had shorter curing times than those with commercial silica. Moreover, the overall mechanical properties—tensile strength, tear strength, abrasion resistance, compression set, and resilience—of rubber products reinforced with RHA silica were superior to those reinforced with commercial silica. However, the hardness of the RHA silica-reinforced products was lower. Therefore, these products are more suitable for applications where hardness is not critical, but other mechanical properties are important. #Sustainable #Greensolution #Greentech #Ecofriendly
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Silicon-Based Innovation in Automotive Components Innovative utilization of rice husk silica can revolutionize various components within the automotive industry, enhancing performance, sustainability, and safety. Here are several ways rice husk silica can be integrated into automotive products: 1. Reinforced Durability in Vehicle Structures: Rice husk silica can be incorporated as a reinforcing material in the manufacturing of vehicle bodies and chassis. By enhancing the durability and mechanical strength of these structures, rice husk silica improves crash resistance and overall safety for passengers. 2. Improved Thermal Insulation and Noise Reduction: Utilizing rice husk silica in automotive insulation materials can effectively regulate temperature and reduce noise transmission within vehicle cabins. This enhances driving comfort and provides a quieter ride experience for occupants, especially in noisy urban environments. 3. Enhanced Fuel Efficiency with Lightweight Components: Integration of rice husk silica into lightweight automotive parts, such as engine components and body panels, contributes to reducing overall vehicle weight. This leads to improved fuel efficiency and lower carbon emissions, aligning with sustainability goals and regulatory standards. 4. Resistance to Corrosion and Wear in Vehicle Components: By incorporating rice husk silica into coatings for automotive parts exposed to harsh environments, such as underbody components and wheel rims, manufacturers can enhance resistance to corrosion and wear. This prolongs the lifespan of vehicle components and reduces maintenance costs for consumers. 5. Sustainable Material Sourcing and Eco-Friendly Manufacturing: Rice husk silica presents a sustainable alternative to traditional silica sources, as it utilizes agricultural waste and reduces dependence on non-renewable resources. Its integration into automotive components promotes eco-friendly manufacturing practices and contributes to the circular economy by repurposing agricultural by-products. By leveraging the unique properties of rice husk silica, automotive manufacturers can create vehicles that are not only safer and more durable but also environmentally sustainable. Embracing silicon-based innovations in automotive design and production leads to a greener future while maintaining high standards of performance and quality for consumers. More detail: https://lnkd.in/gJFS5bUn
Silicon-Based Innovation in Automotive Components
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☑️ Biosilica derived from rice husk has become a significant component in the rubber and tire industry due to its superior quality-enhancing properties. By incorporating Biosilica into rubber compounds, manufacturers can improve the quality and performance of tires. This environmentally-friendly alternative to traditional silica sources offers benefits such as increased durability, better traction, and improved fuel efficiency. ☑️ The utilization of Biosilica in the rubber and tire industry showcases a sustainable approach towards enhancing product quality while also reducing waste. As a renewable resource, Biosilica contributes to the circular economy by repurposing agricultural by-products effectively. Its application in tire manufacturing not only improves the overall performance and longevity of tires but also aligns with the industry's increasing focus on sustainability and eco-conscious practices. #Nanofarm #Biosilica #Greentech #Sustainblesolution #Ecofriendly
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Rubber X Agriculture Green Tech! 🌾 🛞 Biosilica (Rice husk), a natural byproduct derived from rice milling, is gaining traction as a sustainable alternative in various industries, particularly in the tire and rubber sector. Due to its high silicon dioxide content, rice husk silica exhibits excellent reinforcing properties and can enhance the performance of rubber compounds. In the tire industry, Biosilica (rice husk)serves as a valuable reinforcement filler, improving the tensile strength, abrasion resistance, and overall durability of tires. Its use can lead to the production of eco-friendly tires with enhanced wear resistance and reduced rolling resistance, contributing to improved fuel efficiency. Furthermore, in the rubber industry, Biosilica (rice husk) can be employed as a filler in rubber compounds to enhance mechanical properties and reduce production costs. Its compatibility with different rubber matrices makes it a versatile and sustainable ingredient for various rubber products such as seals, hoses, and conveyor belts. #Greentech #Recycling #Nanofarm #Sustainablesolution #Ecofriendly
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Personal Protective Equipment (PPE): ✅ 1. Enhanced Durability and Mechanical Strength: Rice husk silica can be used as a reinforcing material in the manufacturing of various PPE such as masks, gloves, and protective clothing. This helps improve the durability and mechanical strength of the products, enhancing protection for users in hazardous work environments. ✅ 2. Improved Heat Resistance: By utilizing rice husk silica as a reinforcement component, PPE like protective gloves or garments can be enhanced to better withstand heat. This is particularly beneficial in industrial environments where exposure to high temperatures or fire hazards is a concern. ✅ 3. Electrical Conductivity and Thermal Insulation: Rice husk silica can be employed to improve the electrical conductivity or thermal insulation properties of PPE such as gloves or protective aprons. This helps protect workers from risks associated with electricity and heat. ✅ 4. Weight Reduction: Using rice husk silica as a lightweight material in PPE such as helmets or safety shoes can reduce discomfort and fatigue when worn for extended periods. ✅ 5. Enhanced Fire Resistance and Anti-static Properties: Rice husk silica can be used to reinforce the materials of PPE such as protective jackets or safety shoes, improving their fire resistance and anti-static properties, thereby enhancing safety for users. By integrating rice husk silica into PPE products, manufacturers can improve the performance and functionality of these products, while providing better protection for workers in various industrial environments. hashtag#ImportExport hashtag#Greentech hashtag#Ecofriendly hashtag#Greensolution hashtag#Recyling hashtag#Nanofarm