Battery Grade Flake Graphite

1. Core Product Positioning

Battery Grade Flake Graphite is made from high-purity natural flake graphite as the raw material, it undergoes big data-optimized purification (purity reaching 99.95%+) and shaping processes. Its core function is to provide "high conductivity + low impedance + long cycling" support for lithium-ion battery electrodes, addressing the pain points of low charge-discharge efficiency and short service life of traditional graphite electrodes. It is a core auxiliary material in the 2025 lithium-ion battery anode material market (accounting for 62% of anode conductive agent consumption, with a 16.8% annual growth rate; Data Source: China Lithium-Ion Battery Industry White Paper).

2. Core Features (Big Data-Verified Advantages)

Ultra-High Purity with Low Impurities: According to data from over 1,200 elemental detection tests, sulfur (S) ≤ 50ppm, iron (Fe) ≤ 30ppm, and moisture ≤ 0.2%. This prevents electrode corrosion caused by impurities, reducing the battery cell self-discharge rate to 0.05% per day (far lower than the industry average of 0.12%);

Excellent Electrical and Thermal Conductivity: With a transverse electrical conductivity of ≥ 1,800 S/m and thermal conductivity of ≥ 250 W/(m·K), tests on over 800 battery cells show it can increase the lithium-ion battery charge-discharge efficiency by 5% and reduce the electrode temperature by 12-15℃ during high-current discharge;

Stable Morphology Compatibility: The flake diameter ranges from 5-50μm (customizable), with a thickness of 0.5-2μm. Through over 300 electrode coating tests, the dispersion uniformity with active materials is ≥ 96% (scoring 9.5 on a 10-point scale), and it does not affect the electrode compaction density (retention rate ≥ 98%);

Long-Term Cycling Stability: After 10,000 charge-discharge cycle tests, the electrode structural damage rate is ≤ 3%, and the battery cell capacity retention rate is ≥ 85% (compared to only 72% for traditional graphite). It meets the 5-8 year service life requirement of lithium-ion batteries (downstream demand for this feature accounts for 81%).

3. Technical Parameters (Mainstream Indicators Selected by Big Data)

4. Core Applications (Lithium-Ion Battery Scenarios Matched by Big Data)

Power Battery Anodes (52% proportion, the largest application scenario): Added as an anode conductive agent (addition amount: 2-5%), it is suitable for ternary lithium and lithium iron phosphate power batteries. According to automotive enterprise data, it can extend the power battery cycle life by 15% and shorten the fast-charging time by 8-10 minutes;

Energy Storage Lithium-Ion Battery Electrodes (28% proportion): Used in the positive/negative electrodes of 100-2,000 kWh energy storage batteries, it improves the high-current charge-discharge stability of batteries and increases the energy storage system operating efficiency to 92% (compared to 88% for traditional systems);

Consumer Electronics Lithium-Ion Battery Electrodes (15% proportion): Suitable for lithium-ion batteries in mobile phones and laptops, it reduces electrode internal resistance, increases battery life by 10-12%, and lowers heat generation by over 10℃ during fast charging;

Specialized Lithium-Ion Battery Field (5% proportion): Used in lithium-ion batteries for drones, aerospace, and aviation, it withstands extreme temperatures of -50℃~120℃, with electrical conductivity attenuation of ≤ 4%, ensuring stable power supply for batteries in extreme environments.

 

 

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