Extruded graphite is a type of graphite material produced through a process called extrusion.

This involves forcing a mixture of graphite and binder through a die to create specific shapes and sizes.

Extrusion is one of several methods used in graphite machining, alongside compression molding and isostatic pressing.

Each method yields unique grades of graphite suitable for various applications.

What is Extruded Graphite? 7 Key Properties and Applications

1. Production Process

The process begins with a mixture of graphite and binder pitch, which is homogenized in mixers.

The mixture is then forced through a die with a specific cross-sectional profile, a method known as extrusion.

This technique allows for the production of graphite with consistent properties along the length of the extruded material.

This makes it suitable for applications requiring uniform characteristics.

2. Properties of Extruded Graphite

2.1 Fine Grain Size

Extruded graphite typically has a fine grain size, which contributes to its smooth surface and high precision in machining.

2.2 High Purity

It is often characterized by high purity levels, essential for applications in sensitive industries like semiconductors and photovoltaics.

2.3 High Strength

Despite its fine grain structure, extruded graphite exhibits high strength, especially at elevated temperatures.

2.4 Low Specific Resistance

This property makes it an excellent conductor of electricity, useful in electrical applications.

2.5 Ease of Precise Machining

The uniform structure and fine grain size facilitate precise machining, allowing for customization in dimensions and shapes.

2.6 Excellent Thermal Shock Resistance

Extruded graphite can withstand rapid temperature changes without damage, a crucial property for high-temperature applications.

2.7 Good Anticorrosion

It is resistant to many corrosive environments, making it suitable for chemical and petrochemical industries.

3. Applications

3.1 Semiconductor Industry

Extruded graphite is used for its high purity and thermal stability.

3.2 Glass and Refractory Industries

It is utilized for its high-temperature resistance and strength.

3.3 Electrical Discharge Machining (EDM)

Its electrical conductivity and ease of machining make it ideal for EDM applications.

3.4 High-Temperature Furnaces

It is used as a construction material due to its excellent thermal properties.

3.5 Photovoltaic Industry

Its high purity and electrical conductivity are beneficial in solar cell manufacturing.

3.6 Chemical and Petrochemical Industry

Its anticorrosion properties are advantageous in these harsh environments.

Conclusion

Extruded graphite is a versatile material with a range of properties that make it suitable for numerous high-tech applications.

Its production through extrusion allows for precise control over its physical and chemical properties, ensuring it meets the specific requirements of various industries.

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