92% Alumina Powder Alumina Ceramic with Electric Insulation Properties and

Product Description:

Alumina Ceramic, also known as Al2O3, is a versatile and high-performance material that offers exceptional properties for various industrial applications. One of the key characteristics of Alumina Ceramic is its impressive Tensile Strength of 200 MPa, making it highly durable and able to withstand significant mechanical stresses. This strength ensures that the material can maintain its structural integrity even under challenging conditions.

Available in Various Sizes, Alumina Ceramic provides flexibility in design and application, catering to a wide range of project requirements. Whether you need small components or large structural elements, there is a size of Alumina Ceramic suitable for your specific needs. This adaptability adds to the material's appeal and makes it a valuable resource for many industries.

One of the primary Properties of Alumina Ceramic is its excellent Electric Insulation capabilities. This property makes it ideal for electrical and electronic applications where insulation is crucial to prevent electrical current leakage or short circuits. The high dielectric strength of Alumina Ceramic ensures reliable performance in electrical systems, enhancing safety and efficiency.

With an Elastic Modulus of 380 GPa, Alumina Ceramic exhibits a high degree of stiffness and resistance to deformation. This rigidity allows the material to maintain its shape and structural integrity under load, providing stability and reliability in various mechanical applications. The Elastic Modulus of Alumina Ceramic contributes to its overall strength and durability.

Alumina Ceramic is renowned for its exceptional Wear Resistance, offering a durable surface that can withstand abrasion and friction effectively. Whether used in high-wear environments or applications where contact surfaces experience significant stress, Alumina Ceramic delivers reliable performance and longevity. The material's high Wear Resistance ensures minimal wear and tear, leading to extended lifespan and reduced maintenance costs.

Features:

• Product Name: Alumina Ceramic
• Manufacturing Method: Dry Pressing Or Isostatic Pressing
• Materials: 92% Alumina Powder (Al2O3)
• Thermal Expansion Coefficient: 8.3 × 10^-6/℃
• Dielectric Strength: 15 KV/mm
• Size: Various Sizes Available

Technical Parameters:

Applications:

Alumina Ceramic is a versatile material with a wide range of product application occasions and scenarios due to its unique properties. With a Thermal Expansion Coefficient of 8.3 × 10^-6/℃, Alumina Ceramic is known for its excellent thermal stability, making it ideal for high-temperature applications. Its Machinability is difficult, requiring specialized tools and techniques for processing.

As an Industrial Ceramic, Alumina Ceramic finds its use in various industries and applications. Its exceptional properties, such as electric insulation, make it a preferred choice for electrical and electronic components where insulation is critical to prevent electrical leakage or short circuits.

Alumina Ceramic is commonly used in the manufacturing of insulators, heating elements, electronic substrates, and other components that require high thermal resistance and electrical insulation. Its durability and resistance to harsh environments make it suitable for applications in industries such as aerospace, automotive, electronics, and medical devices.

The unique combination of properties of Alumina Ceramic, including its high thermal stability, electrical insulation, and resistance to corrosion, make it a reliable choice for demanding applications where other materials may not perform as effectively. Its use in industrial settings where extreme temperatures and electrical insulation are essential underscores its importance in critical operations.

Whether in high-temperature furnaces, electrical insulators, or precision components, Alumina Ceramic continues to prove its worth in challenging environments where reliability and performance are paramount. Its versatility and reliability make it a go-to material for engineers and manufacturers seeking high-quality solutions for their industrial ceramic needs.