Tantalum Micron Powder ( Ta, 99.9 %, 3 µm )


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Tantalum Micron Powder (Ta, 99.9%, 3 µm) is a high-purity tantalum powder characterized by its fine particle size of approximately 3 micrometers. Recognized for its exceptional corrosion resistance, high melting point (over 3,000°C), and robust mechanical properties, tantalum is a vital material in numerous high-tech applications. The powder’s ultrafine particle distribution increases its surface area and enhances uniform dispersion, making it well-suited for processes such as powder metallurgy, capacitor manufacturing, coatings, and specialized alloys. Whether employed in electronics, aerospace, or medical devices, tantalum’s reliability, biocompatibility, and stability position it as a top-tier material for demanding environments and advanced technologies.

  1. Key Properties
    • High Purity (99.9%)
      Ensures minimal contamination, crucial for electronics, medical implants, and other applications that require stable, uncontaminated performance.
    • Particle Size (3 µm)
      The fine powder size provides a greater surface area, facilitating improved sintering, better mechanical integrity in sintered parts, and reliable dispersion in composite materials or coatings.
    • Corrosion Resistance
      Tantalum’s natural passivation layer makes it exceptionally resistant to harsh chemical environments, including strong acids, making it ideal for chemical process equipment and implants.
    • High Melting Point
      With a melting point above 3,000°C, tantalum can withstand extreme thermal conditions, critical for aerospace engine components, high-temperature furnaces, and other demanding applications.
    • Excellent Biocompatibility
      Tantalum is well-tolerated by the human body, making it a popular choice for medical implants such as orthopedic and dental applications that require long-term reliability and minimal risk of rejection.
  2. Applications
    • Electronics & Capacitors
      Tantalum capacitors boast superior capacitance and reliability, especially in miniaturized circuits. Fine powder helps achieve higher surface area and improved energy density in capacitors.
    • Aerospace & Turbine Parts
      The high-temperature stability and corrosion resistance of tantalum support its use in critical parts for jet engines, rocket components, and other extreme-environment systems.
    • Medical Devices & Implants
      Owing to its biocompatibility and resistance to bodily fluids, tantalum is found in orthopedic implants, bone grafts, and surgical instrumentation where stability and patient safety are paramount.
    • Chemical Processing Equipment
      Tanks, heat exchangers, and other chemical handling apparatus benefit from tantalum’s resistance to acid corrosion, extending equipment life and reducing downtime.
    • Powder Metallurgy & Advanced Alloys
      Tantalum powder is incorporated in high-performance alloys and sintered products that demand toughness, thermal stability, and resilience against corrosion or abrasion.
  3. Advantages
    • Stability Under Extreme Conditions
      Tantalum’s high melting point and chemical inertness enable its use in harsh or high-temperature environments without significant degradation.
    • Enhanced Sintering & Flow
      The fine, 3 µm particle size helps ensure uniform compaction and sintering in powder metallurgy, improving mechanical properties in finished components.
    • Long-Term Reliability
      Exceptional corrosion resistance minimizes material fatigue or breakdown over time, critical in aerospace, medical, and chemical industries where component failures can be costly or dangerous.
    • Biocompatibility & Safety
      Tantalum’s inertness and excellent compatibility with the human body make it a preferred material for implants that require minimal risk of rejection or adverse reactions.
    • High Electrical Performance
      In capacitor applications, tantalum’s stable oxide layer allows for consistent and high dielectric strength, leading to efficient energy storage and miniaturization potential.
  4. Recent Trends and Research
    • High-Energy-Density Capacitors
      Ongoing R&D aims to increase the surface area and enhance dielectric properties of tantalum powders for next-generation capacitors, powering more compact and efficient electronics.
    • 3D Printing & Additive Manufacturing
      While still less common than other metals, research into 3D printing with tantalum powder is expanding, showing promise for creating custom implants and complex aerospace components.
    • Advanced Alloys for Harsh Environments
      Scientists are exploring tantalum-based superalloys with improved heat and corrosion resistance, targeting industries such as nuclear energy, petrochemicals, and deep-sea exploration.
    • Biomedical Innovations
      Tantalum’s excellent osseointegration (bone bonding) properties are driving research into new implant designs that reduce healing times and improve long-term outcomes for patients.
    • Recycling & Sustainable Supply
      Efforts to recover and recycle tantalum from electronics and industrial scrap are intensifying, aiming to maintain a stable supply and reduce environmental impacts associated with primary extraction.
  5. Future Prospects
    • Next-Generation Electronics & Energy
      Tantalum’s unique electrical properties will remain vital for miniaturized, high-performance capacitors and potential energy storage devices as electronics become more compact and powerful.
    • Expanded Biomedical Applications
      As new implant technologies emerge, tantalum’s unmatched biocompatibility may inspire novel medical devices and enhanced bone-regeneration solutions.
    • High-Performance Additive Manufacturing
      With continued advancements in metal 3D printing, fine tantalum powders could open up new frontiers for custom-designed aerospace parts or intricate, patient-specific medical implants.
    • Chemical & Industrial Endurance
      Tantalum’s ability to endure corrosive industrial processes will sustain its role in chemical processing equipment—particularly as global demand for more robust, long-lasting systems grows.
    • Innovations in High-Temperature Alloys
      Integration of tantalum into cutting-edge superalloys could yield transformative improvements in both thermal and mechanical properties, driving progress in turbine technology and beyond.

Through its 99.9% purity, 3 µm particle size, and extraordinary combination of chemical, thermal, and mechanical properties, Tantalum Micron Powder (Ta, 99.9%, 3 µm) stands as a premier choice for advanced engineering, medical, and electronic applications. As demands for reliability, miniaturization, and overall performance continue to rise, tantalum’s unique attributes ensure it will remain a critical player in the ongoing evolution of high-tech industries.

SKU: MN10MP0137 Category:
Measurement (gr)

100 grams, 500 grams, 1000 grams