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Nano-manufacturer (aka. Technology Co. Ltd. summarized specific applications of Nanosilica after years exploring Nano-powders.
Plastic
Nano-silica Light-transmissive with a smaller particle size. This can make plastics dense. When silica is added to polystyrene, it improves the film’s transparency, strength and toughness, as well as its waterproofing and anti-aging capabilities.
Rubber
Rubber is a rubber elastomer that has excellent stretchability but its overall performance isn’t satisfactory. Carbon black is added to rubber to increase its strength, wear-resistance, and aging resistance. Carbon black is added to rubber, but this results in a black product. The grade of the rubber product is low. The introduction of nano-SiO2 to China has provided a solid material base for the production of new rubber products that have novel colors and high performance.
When rubber is treated with nano-SiO2, its abrasion and flexural strength, as well as its resistance to aging, are improved. Its color also looks brighter, and color retention is better.
Dye
Organic dyes may have vibrant colors and strong tinting powers, but they are not as resistant to light, heat, solvents, or migration than inorganics. Addition of nano-SiO2 to organic dyes improves their anti-aging and brightness properties.
Ceramics
Using nano-SiO2 Instead of adding traditional Nano-additives to ceramics, the particles can also be used as second-phase particles. This not only increases the toughness and strength of the ceramic but also its hardness and elastic modulus. The performance is better and the effect is more optimal than traditional Nano
additives.
By using nano-SiO2 in the composite of ceramic substrates, not only is the density, toughness, smoothness and toughness improved, but the sintering temp greatly reduced. The application of nano-SiO2 to ceramic products, such as ceramic filter and corundum ball is also very important.
Sealant Adhesive
Sealants, adhesives, and other important products are widely used and have many applications. This requires the right conditions in terms of product viscosity (liquidity), curing speed, and cure time. Nano-materials have been used as modifiers in many foreign products. Nano-SiO2 has become the most popular. It is mostly coated with an organic material to make nano-SiO2 more hydrophobic, and then added to the sealant. It is formed quickly by the Nano-SiOX, small particles that form a network to slow down the flow and speed up the curing. A small nano-SiO2 size increases both the sealing and the impermeability.
Glass Product
The FRP materials are light, have high strength and corrosion resistance but have low hardness. They also have poor wear resistance. Scientists use ultrasonic dispersion to add nano-SiO2 into the gel coat resin. They then compare the performance of the gel without the nano-SiO2. nano-SiO2 Wear resistance has increased 1 to 2 fold. Nanoparticles are grafted and bonded to organic polymers, increasing the material’s toughness. Tensile strength and Impact strength increase by one time. Heat resistance has been improved as well, as mentioned above.
(aka. Technology Co. Ltd. has over 12 years experience as a supplier of high-quality chemical materials and nanomaterials. The nano-SiO2 Please note that the products produced by our company are of high purity and have low impurities. Please. Contact us if necessary.
Plastic
Nano-silica Light-transmissive with a smaller particle size. This can make plastics dense. When silica is added to polystyrene, it improves the film’s transparency, strength and toughness, as well as its waterproofing and anti-aging capabilities.
Rubber
Rubber is a rubber elastomer that has excellent stretchability but its overall performance isn’t satisfactory. Carbon black is added to rubber to increase its strength, wear-resistance, and aging resistance. Carbon black is added to rubber, but this results in a black product. The grade of the rubber product is low. The introduction of nano-SiO2 to China has provided a solid material base for the production of new rubber products that have novel colors and high performance.
When rubber is treated with nano-SiO2, its abrasion and flexural strength, as well as its resistance to aging, are improved. Its color also looks brighter, and color retention is better.
Organic dyes may have vibrant colors and strong tinting powers, but they are not as resistant to light, heat, solvents, or migration than inorganics. Addition of nano-SiO2 to organic dyes improves their anti-aging and brightness properties.
Ceramics
Using nano-SiO2 Instead of adding traditional Nano-additives to ceramics, the particles can also be used as second-phase particles. This not only increases the toughness and strength of the ceramic but also its hardness and elastic modulus. The performance is better and the effect is more optimal than traditional Nano
additives.
By using nano-SiO2 in the composite of ceramic substrates, not only is the density, toughness, smoothness and toughness improved, but the sintering temp greatly reduced. The application of nano-SiO2 to ceramic products, such as ceramic filter and corundum ball is also very important.
Sealant Adhesive
Sealants, adhesives, and other important products are widely used and have many applications. This requires the right conditions in terms of product viscosity (liquidity), curing speed, and cure time. Nano-materials have been used as modifiers in many foreign products. Nano-SiO2 has become the most popular. It is mostly coated with an organic material to make nano-SiO2 more hydrophobic, and then added to the sealant. It is formed quickly by the Nano-SiOX, small particles that form a network to slow down the flow and speed up the curing. A small nano-SiO2 size increases both the sealing and the impermeability.
Glass Product
The FRP materials are light, have high strength and corrosion resistance but have low hardness. They also have poor wear resistance. Scientists use ultrasonic dispersion to add nano-SiO2 into the gel coat resin. They then compare the performance of the gel without the nano-SiO2. nano-SiO2 Wear resistance has increased 1 to 2 fold. Nanoparticles are grafted and bonded to organic polymers, increasing the material’s toughness. Tensile strength and Impact strength increase by one time. Heat resistance has been improved as well, as mentioned above.
(aka. Technology Co. Ltd. has over 12 years experience as a supplier of high-quality chemical materials and nanomaterials. The nano-SiO2 Please note that the products produced by our company are of high purity and have low impurities. Please. Contact us if necessary.