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  • High Flexibility F.C.90% Nano Graphene Oxide 80mesh Oxidation Expandable Graphite Power and Thermal Conductivity Graphite Price
  • High Flexibility F.C.90% Nano Graphene Oxide 80mesh Oxidation Expandable Graphite Power and Thermal Conductivity Graphite Price
  • High Flexibility F.C.90% Nano Graphene Oxide 80mesh Oxidation Expandable Graphite Power and Thermal Conductivity Graphite Price
  • High Flexibility F.C.90% Nano Graphene Oxide 80mesh Oxidation Expandable Graphite Power and Thermal Conductivity Graphite Price
  • High Flexibility F.C.90% Nano Graphene Oxide 80mesh Oxidation Expandable Graphite Power and Thermal Conductivity Graphite Price
  • High Flexibility F.C.90% Nano Graphene Oxide 80mesh Oxidation Expandable Graphite Power and Thermal Conductivity Graphite Price
High Flexibility F.C.90% Nano Graphene Oxide 80mesh Oxidation Expandable Graphite Power and Thermal Conductivity Graphite Price

High Flexibility F.C.90% Nano Graphene Oxide 80mesh Oxidation Expandable Graphite Power and Thermal Conductivity Graphite Price

  • 1 - 2 Kilograms
    $1.45
  • 3 - 4 Kilograms
    $1.44
  • >= 5 Kilograms
    $1.42

Customization:

Customized logo(Min.Order: 500000 pieces)
Customized packaging(Min.Order: 500000 pieces)
Graphic customization(Min.Order: 500000 pieces)
View product details

High Flexibility F.C.90% Nano Graphene Oxide 80mesh Oxidation Expandable Graphite Power and Thermal Conductivity Graphite Price

Product overview

Core functionalities

Applicable scenarios

Unique advantages

  • High Thermal Conductivity & Flexibility: The F.C.90% Nano Graphene Oxide expandable graphite enables efficient heat dissipation and flexible integration into various applications, ideal for thermal management systems and energy storage devices.
  • Oxidation-Resistant Structure: Engineered for stability in high-temperature environments, making it suitable for industrial processes requiring durability and reliability.

Key features

  • 1. Material Technology: 90% Nano Graphene Oxide for Enhanced Flexibility and Conductivity

    • With 90% nano graphene oxide composition, achieve 30% higher thermal conductivity than standard graphite*, enabling superior heat dissipation in industrial applications like electronics cooling. The nano structure also ensures exceptional flexibility for integration into complex machinery.

  • 2. Interactive Design: High Flexibility for Custom Integration

    • With high flexibility, easily adapt

Product details

High Flexibility F.C.90% Nano Graphene Oxide 80mesh Oxidation Expandable Graphite Power and Thermal Conductivity Graphite Price

High Flexibility F.C. 90% Nano Graphene Oxide 80mesh Oxidation Expandable Graphite Powder is a high-carbon, natural graphite material engineered for industrial applications requiring superior thermal conductivity and adaptability. Its nano-scale graphene oxide structure ensures exceptional flexibility and uniform particle distribution, making it ideal for advanced thermal management systems, industrial coatings, and composite materials.

Technical specifications

FeatureSpecificationBenefit
Nano Graphene Oxide90% purityEnhanced thermal conductivity and flexibility
Mesh Size80 meshConsistent particle size for precision applications
Carbon Content≥95%High-purity natural graphite for demanding environments
Thermal Conductivity800–1200 W/m·KEfficient heat dissipation in machinery and electronics
Expansion Ratio220–280% (based on model)Adaptable to complex industrial designs

Customization guide

Adjustable parameters:

  • Mesh size (60–120 mesh) to optimize for specific application requirements.
  • Carbon content (85–98%) to balance cost and performance needs.
  • Expansion ratio tailored for thermal interface materials or composite additives.

Get inspired

With its high thermal conductivity and flexibility, this graphite powder is a game-changer for industries seeking sustainable, high-performance materials. Use it in next-gen batteries, aerospace components, or industrial heat exchangers to leverage its natural durability and adaptability.

Choose your model

ParameterBase ModelAdvanced ModelPro Model
Thermal Conductivity800 W/m·K+15% (920 W/m·K)+30% (1040 W/m·K)*
Expansion Ratio220%250%280%
Purity92%95%98%

Supplier's note

  1. Three Technical Breakthroughs:

    • Thermal Conductivity: The Pro Model’s 1040 W/m·K outperforms industry benchmarks by 30%, enabling safer operation in high-heat environments.
    • Expansion Ratio: The Advanced Model’s 250% expansion allows seamless integration into flexible electronics and wearable tech.
    • Purity: The Base Model’s 92% carbon content meets standard industrial requirements at a cost-effective price.

  2. Optimal Version Selection:

    • Base Model: Ideal for general industrial applications (e.g., basic heat sinks) where cost-efficiency is prioritized.
    • Advanced Model: Suited for mid-tier electronics and automotive parts needing enhanced flexibility and thermal performance.
    • Pro Model: Best for high-end applications like aerospace components or advanced batteries, where extreme thermal stability and purity are critical.

With the Pro Model’s triple-industry-standard thermal conductivity, you can safely handle extreme temperatures in semiconductor manufacturing. Pair its 98% purity with its 280% expansion ratio to create lightweight, durable composites for aerospace applications.

Frequently asked questions

  • Which model of oxidation expandable graphite is best for high-temperature industrial applications?

  • How to properly store High Flexibility F.C.90% Nano Graphene Oxide Graphite Powder?

  • What are the advantages of Nano Graphene Oxide over standard graphite in thermal applications?

  • Can the mesh size of the graphite powder be customized for specific industrial needs?

  • Is the high-carbon content of this product compliant with industrial safety standards?

  • What are the primary industrial applications of this graphite powder?

  • How does the 90% Fixed Carbon (F.C.) content benefit industrial processes?

  • What makes this natural graphite powder suitable for thermal conductivity applications compared to synthetic options?

Product comparison

CategoryUsage ScenariosCharacteristicsAdvantagesDisadvantages
Carbon ContentBattery electrodes, thermal interfacesIndustry: 85% (ASTM C748)Our Base: 90% (▲1)Our Advanced: 92% (▲2)
Mesh SizeAdvanced composites, coatingsIndustry: 60-80 mesh (ISO 3324)Our Base: 80 meshOur Advanced: 100 mesh (▲1)
Thermal ConductivityEV batteries, heat sinksIndustry: 150 W/m·K (ASTM E1461)Our Base: 180 W/m·K (▲1)Our Advanced: 200 W/m·K (▲2)
FlexibilityFlexible electronics, wearable devicesIndustry: Limited (bend >5cm)Our Base: 3cm (▲1)Our Advanced: 1cm (▲2)
PuritySemiconductor components, aerospaceIndustry: 98% purityOur Base: 99% (▲1)Our Advanced: 99.9% (▲2)
Particle UniformityCoatings, 3D printing materialsIndustry: ±15% varianceOur Base: ±10% (▲1)Our Advanced: ±5% (▲2)

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