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Our nanocellulose coating enhances fiber–resin adhesion, boosting strength and durability so manufacturers can achieve high-grade carbon performance from standard fibers - cutting material costs without sacrificing quality.
Composite are premium materials. More performance per gram leads to less material needed saving thousands of dollars.
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5x-10x cheaper than leading nanomaterial additives-engineered as drop in solution.
Enables lighter part designs, a key performance metric in transportation, energy, and oil/gas.
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Our nanocellulose coating enhances fiber–resin adhesion, boosting strength and durability so manufacturers can achieve high-grade carbon performance from standard fibers - cutting material costs without sacrificing quality.
Composite are premium materials. More performance per gram leads to less material needed saving thousands of dollars.
5x-10x cheaper than leading nanomaterial additives-engineered as drop in solution.
Enables lighter part designs, a key performance metric in transportation, energy, and oil/gas.
Our nanofiber coating enhances the natural properties of fibers, enabling lower-grade materials to function at the level of higher-grade fibers without a significant increase in cost. This innovation paves the way for the widespread use of materials such as carbon fiber.
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Conventional fibers rely on outdated sizing agents that provide minimal mechanical interlocking, limiting stress transfer - particularly under dynamic loads or high-strain conditions.
Our nanofiber interface forms a high strength 3D interlocking network on the fiber surface - mechanically anchoring into the matrix significantly improving interfacial and mechanical properties.
Our coating restores interfacial adhesion lost during recycling, enabling the use of lower-cost rCF in high-performance applications while improving tensile, flexural, and impact strength.
By enhancing interlaminar strength and crack resistance, our coating provides uniform resin wet-out and delivers improved surface finish and long-term durability in composites.
We boost matrix bonding to overcome aramid’s naturally low adhesion, improving energy absorption and tear resistance while enabling lighter laminates with equal or greater strength.
Our chemistry increases fiber-matrix adhesion without toxic coupling agents, improving moisture resistance and dimensional stability while elevating the strength and durability of bio-composites.
Acting as high-performance sizing agent, our nanofibers boosts adhesion, resin compatibility, and filament integrity in weaving and AFP/ATL processes.
Our treatment enables better fiber dispersion in polymer matrices, improving toughness and flexural performance while allowing lower processing temperatures and reduced additive loadings.
Our nano-enhanced solutions are engineered to seamlessly integrate into existing workflows - whether sizing, fiber placement, winding, lamination, or additive manufacturing - unlocking higher quality outputs, reduced waste, and greater design flexibility. The following sections highlight how our technology elevates each stage of composite manufacturing.
Our nano-enhanced solutions are engineered to seamlessly integrate into existing workflows - whether sizing, fiber placement, winding, lamination, or additive manufacturing - unlocking higher quality outputs, reduced waste, and greater design flexibility.
Learn more below:
Our nano-enhanced solutions are engineered to seamlessly integrate into existing workflows - whether sizing, fiber placement, winding, lamination, or additive manufacturing - unlocking higher quality outputs, reduced waste, and greater design flexibility.
Learn more below:
Our nano-enhanced solutions are engineered to seamlessly integrate into existing workflows - whether sizing, fiber placement, winding, lamination, or additive manufacturing - unlocking higher quality outputs, reduced waste, and greater design flexibility. The following sections highlight how our technology elevates each stage of composite manufacturing.
This formulation follows the same process as Seabind™, with further enhanced functionality. After reducing the cellulose biopolymer particles via high-shear mixing, inorganic nano-ceramics derived from natural minerals are homogeneously dispersed within the nanocellulose. This integration gives the nano-cellulose superior performance characteristics over Seabind™, including fire resistance, UV/IR reflectance, electrical insulation, thermal conductivity, and more.
Discover the technology that makes it all possible: our TeraSolv™—a game-changing alternative to traditional solvents for cleaner extraction and superior material enhancement. Made by combining industrially available natural resources like sugars, mineral, or organic acids, our solvents are engineered to perform with minimal environmental impact. Whether it's separating cotton from polyester, isolating biopolymers from biomass, or imparting unique chemistries, our refining solvents are designed for it.
This formulation follows the same process as Seabind, with further enhanced functionality. After reducing the cellulose biopolymer particles via high-shear mixing, inorganic nano-ceramics derived from natural minerals are homo genously dispersed within the nanocellulose. This integration gives the nanocellulose superior performance characteristics over Seabind,including fire resistance, UV/IR reflectance, electrical insulation, thermal conductivity, and more.
Learn MoreDiscover the technology that makes it all possible: our refining solvents—a game-changing alternative to traditional solvents for cleaner extraction and superior material enhancement. Made by combining industrially available natural resources like sugars, mineral, or organic acids, our solvents are engineered to perform with minimal environmental impact. Whether it's separating cotton from polyester, isolating biopolymers from biomass, or imparting unique chemistries, our refining solvents are designed for it.
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