| Type: | Vibrated Graphite |
|---|---|
| Composition: | SiC |
| Carbon Content: | High-Carbon |
| Grade: | Industrial Grade |
| Forming Way: | Vibrated Graphite |
| Crystal Morphology: | Compact Crystalline Graphite |
| Samples: |
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| Customization: |
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Audited Supplier The manufacturing process of vibration molding graphite material is an efficient and high-precision manufacturing process, which is mainly used to make the graphite material fill the mold uniformly by means of vibration and obtain the required shape and size. The specific steps are as follows:
Put the graphite material into the mold.
Through the vibration molding equipment, the graphite material is vibrated in the mold to make it fill all corners of the mold evenly.
After a certain period of time, the graphite material is cooled and shaped in the mold, and the vibration molding graphite material of the required shape and size can be obtained.
During the manufacturing process, attention needs to be paid to controlling the parameters of the vibration molding equipment, such as vibration frequency, amplitude, etc., in order to obtain graphite materials with accurate shapes and sizes. Meanwhile, for different application scenarios, graphite materials with different particle sizes and properties can be selected for processing as needed.
Medium-coarse vibrated graphite material is a material with special physical and chemical properties, consisting of graphite crystals with good electrical and thermal conductivity and high temperature resistance. This graphite material has a unique layered structure consisting of layers of stacked graphite crystals, which creates a large specific surface area and adsorption capacity and can be used as an electrode material for battery materials.
| Grade | MV-12 | |
| Material | Vibration Molded Graphite | |
| Specifications | Unit | Typical Value |
| Bulk Density | g/cm3 | 1.72 |
| Specific Resistance | μΩ.m | 9 |
| Compressive Strength | MPa | 30 |
| Flexural Strength | MPa | 13 |
| C.T.E.(RT-600ºC) | 10~/ºC | 3.2 |
| Thermal Conductivity | W/(m.k) | 1000 |
| Ash Content | % | 0.2 |
| Maximum Grain Size | mm | 0.8 |
| Size | 500*500*2050mm,400*400*2050mm | |
Vibration-molded graphite is essential in the photovoltaic industry, primarily in making polysilicon. It's also valuable for heating and insulation in monocrystalline silicon furnaces due to its impressive heat conductivity and high-temperature resistance. Beyond photovoltaics, this type of graphite finds applications in the foundry, chemical, electronics, non-ferrous metals, high-temperature processes, ceramics, and refractory industries.
1. Question: What are artificial graphite blocks?
Answer: Synthetic graphite in block form can be used in a variety of industrial applications. It is a unique high-temperature material with good electrical conductivity for thermal and electrical applications. The production of graphite requires petroleum coke and usually requires several weeks of processing, which typically involves pressing, baking, and graphitization.
Applications for graphite materials include electric arc furnace electrodes, motor brushes, lubricants, refractory materials, casting molds, friction materials, and electrodes for electric discharge machining (EDM).
2. Question: How can I receive more specific information about my Vibrated graphite-related needs?
Answer: You can communicate with our graphite experts online via "Send your message to this supplier" at the bottom of the page.
Vibration-Molded Graphite Vibrated Graphite
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