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  • Titanium boride – Boron Carbide – Tungsten Oxide TiB2 / B4C / W2O5 (30 / 10 / 60)– Nanopowder mixture

Titanium boride – Boron Carbide – Tungsten Oxide TiB2 / B4C / W2O5 (30 / 10 / 60)– Nanopowder mixture

  • TiB2/B4C / W2B5 (30 / 10 / 60)-
  • Nanopowder mixture Composition: W2B5 > 59.4 %; TiB2 > 29.5 %; B4C > 9.6 %
  • Controlled admixtures, %: B2O3 < 0.11; C < 0.45; Fe < 0.1; Si < 0.15
  • Pack Sizes Available : 5gm,  10 gm, 50 gm, 100gm.

Product Overview

The Titanium Boride (TiB2), Boron Carbide (B4C), and Tungsten Oxide (W2O5) nanopowder mixture, with a 30/10/60 ratio, combines the exceptional properties of each material. TiB2 is known for its high hardness and electrical conductivity, B4C for its extreme hardness and chemical resistance, and W2O5 for its high density, thermal stability, and catalytic properties. This synergistic mixture is ideal for advanced applications requiring high wear resistance, thermal stability, mechanical strength, and catalytic efficiency.

Key factor

  • Composition: A precise 30/10/60 ratio of TiB2, B4C, and W2O5 provides a balanced combination of properties from all three materials.
  • Particle Size: Ultra-fine nanoparticles with high surface area enhance reactivity and performance.
  • Purity: High-purity materials ensure consistent and reliable performance across different applications.
  • Thermal Stability: The mixture exhibits exceptional thermal stability, suitable for high-temperature environments.


  • Cutting Tools: Used in the production of cutting tools and drill bits, offering superior wear resistance and longevity.
  • Wear-Resistant Coatings: Applied in coatings to protect surfaces from abrasion and wear, extending the life of components.
  • Advanced Ceramics: Integrated into ceramic matrices for high-stress environments, enhancing mechanical properties and thermal stability.
  • Abrasives: Used in abrasive materials for grinding, lapping, and polishing hard surfaces.
  • Catalysis: Utilized in catalytic applications due to the catalytic properties of W2O5.


  • Superior Hardness: The combination of TiB2 and B4C results in an extremely hard material, offering outstanding wear resistance.
  • High Thermal Conductivity: Both TiB2 and W2O5 contribute to excellent thermal conductivity, facilitating efficient heat dissipation.
  • Chemical Resistance: The mixture is highly resistant to oxidation and chemical attack, ensuring durability in corrosive environments.
  • Catalytic Efficiency: W2O5 adds catalytic properties, making the mixture suitable for chemical and catalytic applications.
  • Versatility: The unique combination of properties makes this mixture suitable for a wide range of advanced applications.


Hiyka provides high-purity TiB2/B4C/W2O5 nanopowder mixtures, rigorously tested to meet the highest industry standards. Our team offers comprehensive support and guidance, ensuring optimal results with our nanomaterials. We deliver tailored solutions to meet specific research and industrial needs, ensuring the best performance.  Hiyka is committed to environmentally responsible production processes, minimizing our ecological footprint.

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    For additional information, please refer to the Contact us on- 0120-4781-212/3 Email- [email protected]  

    For bulk orders Contact us on : [email protected]

    • We offer different prices for different pack sizes available.
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