Product Introduction
TN-P100 is manufactured using an advanced high-energy plasma arc vapor phase process, featuring high purity, small particle size, large specific surface area, excellent dispersibility, and strong surface activity. Nano titanium nitride (TiN) exhibits stable chemical properties, high melting point, and outstanding mechanical characteristics including high strength and hardness. It also demonstrates broad-spectrum absorption capacity across ultraviolet, visible, and infrared light. As a high-performance multifunctional nanomaterial, it is widely applied in polymer composites, energy conservation, hard alloys, photothermal conversion, and engineering plastic modification.
Product Features
1. Nano-scale Effect: The particles are fine and uniform with a large specific surface area and high surface activity, enabling easy dispersion in various matrices and ensuring the full utilization of their nano-reinforcement and modification capabilities.
2. Broad-Spectrum Light Absorption: Exhibits strong absorption of ultraviolet, visible, and infrared light, making it suitable for applications in light shielding and photothermal conversion.
3. High Hardness and Thermal Stability: The material possesses inherent high hardness, temperature resistance, and oxidation resistance, which can significantly enhance the mechanical strength and service life of composite materials.
4. Efficient Modification Capability: Achieves remarkable improvements in the optical, thermal, crystalline, and mechanical properties of the base material at very low addition levels, offering outstanding cost-effectiveness.
Usage method
Based on the specific characteristics of the final product, the addition amount should be adjusted accordingly:
• For packaging bottles or film: 10-20 ppm;
• For thermal insulation and energy saving: 0.8-2%;
• For other applications: 0.5-2%.
Uses
1. PET Polymer Packaging Materials
High Barrier Packaging: The addition of approximately 0.1% forms a dense barrier layer within the PET, improving oxygen barrier performance by more than 10 times while maintaining bottle transparency.
Energy-Efficient Processing: Its strong infrared absorption capability accelerates the heating process during blow molding, increasing blow molding efficiency by over 10% and significantly reducing energy consumption.
Appearance Enhancement: Adding just 10–20 PPM eliminates the inherent yellowness of the PET matrix, imparting a sky-blue coloration. This can replace optical brighteners, reducing costs.
Improved Heat Resistance: Enhances the heat distortion temperature of PET material, making it suitable for high-temperature filling environments and extending the product's service life.
Engineering Plastic Modification: Acts as a nucleating agent in plastics like PET and PA, accelerating crystallization and improving wear resistance and impact strength.
2. Solar Photothermal Conversion Materials
As a high-efficiency solar absorber applied in vacuum tube coatings or plastic films, it imparts efficient infrared heat absorption and blocking at just 0.1% addition.
3. High-Temperature High-Emissivity Energy-Saving Coatings
Functions as a key component in high thermal emissivity coatings. Applied via plasma spraying on equipment like industrial kilns and furnaces, it significantly enhances thermal radiation efficiency, achieving energy savings and reduced consumption.
4. Hard Alloys and Cermets
Used during the sintering of hard alloys to refine grain structure and induce whisker formation, simultaneously increasing material hardness and toughness. It is suitable for high-performance cutting tools and wear-resistant components.
5. Other Applications
These include, but are not limited to: nano-composite cutting tools, high-temperature structural ceramics, aerospace wear-resistant components, dispersion-strengthened materials, and conductive ceramics.
Packaging and Storage
Packaging: 25kg/drum.
Storage: Keep in a cool and dry place, avoid direct sunlight exposure, and keep away from heat sources.
TN-P100
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