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Home > Products > Alumina Ceramic > Tensile Strength 200 MPa Alumina Ceramic and Low Thermal Expansion Coefficient for Industrial Applications

Tensile Strength 200 MPa Alumina Ceramic and Low Thermal Expansion Coefficient for Industrial Applications

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high tensile strength alumina ceramic

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low thermal expansion alumina ceramic

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industrial alumina ceramic components

Manufacturing Method:
Dry Pressing Or Isostatic Pressing
Machinability:
Difficult
Application:
Industrial Ceramic
Dielectric Strength:
15 KV/mm
Materials:
92% Alumina Powder
Thermal Expansion Coefficient:
8.3 × 10^-6/℃
Properties:
Electric Insulation
Size:
Various Sizes Available
Manufacturing Method:
Dry Pressing Or Isostatic Pressing
Machinability:
Difficult
Application:
Industrial Ceramic
Dielectric Strength:
15 KV/mm
Materials:
92% Alumina Powder
Thermal Expansion Coefficient:
8.3 × 10^-6/℃
Properties:
Electric Insulation
Size:
Various Sizes Available
Tensile Strength 200 MPa Alumina Ceramic and Low Thermal Expansion Coefficient for Industrial Applications
Tensile Strength 200 MPa Alumina Ceramic and Low Thermal Expansion Coefficient for Industrial Applications
Product Description
Alumina Ceramic is a versatile material known for its exceptional properties, making it a popular choice in various industrial applications. With a composition of 92% Alumina Powder (Al2O3), this ceramic offers a unique combination of strength, durability, and thermal stability.
The Alumina Ceramic product is specifically designed for industrial ceramic applications where high-performance materials are required. Its superior thermal properties, including a low thermal expansion coefficient of 8.3 × 10-6/℃, make it ideal for use in environments with extreme temperature variations.
With a melting point of 2072°C, Alumina Ceramic exhibits excellent thermal stability, ensuring that it can maintain its structural integrity even under high-temperature conditions. This property makes it a reliable choice for applications that involve exposure to elevated temperatures.
Alumina Ceramic, with its high Al2O3 content, offers exceptional electrical insulation properties, making it suitable for use in electrical components and insulating applications. Its chemical inertness and corrosion resistance further enhance its suitability for a wide range of industrial environments.
Features
  • Product Name: Alumina Ceramic
  • Dimensional Tolerance: ±0.001 mm
  • Application: Industrial Ceramic
  • Wear Resistance: High
  • Machinability: Difficult
  • Material: Alumina (Al2O3)
Technical Parameters
Manufacturing Method Dry Pressing Or Isostatic Pressing
Properties Electric Insulation
Materials 92% Alumina Powder
Elastic Modulus 380 GPa
Application Industrial Ceramic
Dimensional Tolerance ±0.001 Mm
Tensile Strength 200 MPa
Melting Point 2072°C
Machinability Difficult
Dielectric Strength 15 KV/mm
Applications
Alumina Ceramic, also known as Al2O3, is a versatile material known for its exceptional properties, making it suitable for a wide range of product applications and scenarios. With a dimensional tolerance of ±0.001 mm, various sizes available, and a high elastic modulus of 380 GPa, Alumina Ceramic is a favored choice in many industries.
One key application occasion for Alumina Ceramic is in the field of electric insulation. Its excellent insulating properties make it ideal for use in electrical components, insulators, and circuit boards. The ability of Alumina Ceramic to withstand high temperatures, with a melting point of 2072°C, further enhances its suitability for electric insulation applications in demanding environments.
Alumina Ceramic's dimensional precision makes it perfect for applications requiring tight tolerances and accurate sizing. Its availability in various sizes allows for customization based on specific project requirements, offering flexibility and adaptability in different scenarios.
Another common scenario where Alumina Ceramic excels is in high-stress environments where its high elastic modulus of 380 GPa provides superior strength and durability. This makes it a preferred choice for applications such as cutting tools, wear-resistant components, and mechanical parts subjected to intense pressure and wear.