Graphite Micron Powder ( C, 99.9%, 5-10μm )

Graphite Micron Powder (C, 99.9%, 5–10 μm) is a high-purity form of carbon engineered for applications demanding excellent electrical conductivity, thermal stability, and lubricating properties. With a particle size ranging from 5 to 10 micrometers and a purity of 99.9%, this powder offers uniform distribution and enhanced surface area, making it a versatile choice for industries such as energy storage, electronics, and composite manufacturing.

1. Key Properties

• High Purity (99.9%): Minimizes contaminants that could affect conductivity, lubrication performance, or chemical reactions.
• Fine Particle Size (5–10 μm): Provides increased surface area and uniform dispersion in composites, pastes, and coatings.
• Thermal and Electrical Conductivity: Supports efficient heat dissipation and current flow in applications like batteries, sensors, and thermal management systems.
• Lubricating Characteristics: Acts as a solid lubricant in mechanical or high-temperature settings, reducing friction and wear.
• Chemical Stability: Maintains structural integrity under diverse operating conditions, including elevated temperatures and corrosive environments.

2. Applications

• Energy Storage: Used in lithium-ion battery anodes, supercapacitors, and fuel cells to enhance conductivity and capacity.
• Electronics and Conductive Coatings: Incorporated into conductive inks, pastes, and coatings for EMI shielding, sensors, and PCB manufacturing.
• Refractory Materials and Metallurgy: Provides thermal resistance and lubricating effects in furnace linings, foundry operations, and high-temperature alloys.
• Composite Reinforcement: Improves strength, thermal conductivity, and dimensional stability in polymer and ceramic matrices.
• Lubricants and Seals: Functions as a dry lubricant or additive in grease formulations for bearings, gears, and other mechanical assemblies.

3. Advantages

• Enhanced Dispersion: The 5–10 μm size range supports uniform mixing in composites, coatings, and chemical formulations, leading to consistent end-product performance.
• Increased Surface Area: Boosts interaction sites in composites, coatings, or chemical reactions, enhancing bonding or reaction rates.
• Stable Performance: Resists oxidation and structural breakdown, contributing to longer operational lifetimes in demanding environments.
• Versatile Use: Balances high conductivity with lubricating properties, enabling multi-functional design in advanced manufacturing and research.

4. Recent Trends and Research

• Advanced Manufacturing Techniques: Incorporating Graphite Micron Powder into multi-material systems for specialized functions, such as lightweight conductive parts or corrosion-resistant coatings.
• Sustainable Production: Emphasis on recycling graphite powders and optimizing energy consumption during powder production to lower environmental impact.
• Hybrid Nanocomposites: Combining graphite powder with other nanomaterials like graphene or carbon nanotubes to create enhanced composite materials with superior properties.

5. Future Prospects Graphite micron powder (C, 99.9%, 5–10 μm) is set to play a pivotal role in evolving industries where conductivity, durability, and chemical stability are paramount. Future developments may include:

• Wider Adoption in High-Performance Lubrication for aerospace, automotive, and heavy machinery.
• Breakthroughs in Energy Storage and Sensor Devices, leveraging synergies with other nanomaterials.
• Sustainable Coatings and Films offering both tribological protection and functional properties in extreme environments.

With its excellent lubricity, chemical inertness, and potential electronic or catalytic features, graphite micron powder remains at the forefront of advanced material research, driving more efficient, reliable, and eco-friendly solutions across mechanical, electronic, and energy-related applications.