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The conductivity of graphite is 100 times higher than that of general non-metallic minerals. The periphery of each carbon atom in graphite is connected with another 3 carbon atoms, arranged in a honeycomb-like multiple hexagons, because each carbon atom will emit an electron, and those electrons can move freely, so graphite is a good conductor.
High-purity graphite is characterized by high purity of graphite, which restores the original physical properties of graphite. At the same time, graphite products of different shapes can be customized according to the specific application scenarios of customers. The binder used in the manufacture of high-purity graphite materials is volatilized, which highlights the conductive properties of graphite, because the higher the purity of graphite, the better the conductive effect. Graphite electrode plates are often used in the electrolysis of aqueous solution to produce chlorine, caustic soda, and electrolysis of salt solution to produce alkali; or for electroplating various metal and non-metallic carriers. It can also be used for sewage treatment in chemical, electronic and textile industries. Also known as graphite positive plate, anode carbon plate.
The graphite electrode sheet produced by L.T Graphite, has high purity, less impurities, and excellent electrical conductivity; the graphite matrix (the user company has applied for a patent) has been practiced to replace the traditional metal heating wire and is used for the heating element of the water heater, which well avoids the traditional heating The metal wire produces scale, the energy consumption is too high, and the water quality is polluted.
Product technical parameters are as follows:
Bulk Density g/cm3 | 1.78-1.80 |
Electrical Resistivity uΩ·m | 8.5-11 |
Flexural Strength MPa | ≥45 |
Compressive Strength MPa | ≥65 |
Porosity | ≤14% |
The conductivity of graphite is 100 times higher than that of general non-metallic minerals. The periphery of each carbon atom in graphite is connected with another 3 carbon atoms, arranged in a honeycomb-like multiple hexagons, because each carbon atom will emit an electron, and those electrons can move freely, so graphite is a good conductor.
High-purity graphite is characterized by high purity of graphite, which restores the original physical properties of graphite. At the same time, graphite products of different shapes can be customized according to the specific application scenarios of customers. The binder used in the manufacture of high-purity graphite materials is volatilized, which highlights the conductive properties of graphite, because the higher the purity of graphite, the better the conductive effect. Graphite electrode plates are often used in the electrolysis of aqueous solution to produce chlorine, caustic soda, and electrolysis of salt solution to produce alkali; or for electroplating various metal and non-metallic carriers. It can also be used for sewage treatment in chemical, electronic and textile industries. Also known as graphite positive plate, anode carbon plate.
The graphite electrode sheet produced by L.T Graphite, has high purity, less impurities, and excellent electrical conductivity; the graphite matrix (the user company has applied for a patent) has been practiced to replace the traditional metal heating wire and is used for the heating element of the water heater, which well avoids the traditional heating The metal wire produces scale, the energy consumption is too high, and the water quality is polluted.
Product technical parameters are as follows:
Bulk Density g/cm3 | 1.78-1.80 |
Electrical Resistivity uΩ·m | 8.5-11 |
Flexural Strength MPa | ≥45 |
Compressive Strength MPa | ≥65 |
Porosity | ≤14% |
