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Fineceratech Yttrium Oxide Bulk Yttria Ceramic Nozzle Insert TGN Product Introduction
Overview
Fineceratech's Yttrium Oxide Bulk Yttria Ceramic Nozzle Insert TGN is a specialized component designed for use in high-performance industrial applications. Yttrium oxide ceramics are known for their exceptional thermal and chemical stability, making this nozzle insert ideal for environments that involve high temperatures and corrosive substances. The TGN model provides superior resistance to wear, thermal shock, and chemical attack, ensuring reliable and long-lasting performance in a variety of demanding settings.
Fineceratech's Yttrium Oxide Bulk Yttria Ceramic Nozzle Insert TGN is a specialized component designed for use in high-performance industrial applications. Yttrium oxide ceramics are known for their exceptional thermal and chemical stability, making this nozzle insert ideal for environments that involve high temperatures and corrosive substances. The TGN model provides superior resistance to wear, thermal shock, and chemical attack, ensuring reliable and long-lasting performance in a variety of demanding settings.
Key Features
1. Exceptional Thermal Stability
- The Yttrium Oxide Bulk Yttria Ceramic Nozzle Insert TGN is capable of withstanding extremely high temperatures without degrading, thanks to the superior thermal stability of yttrium oxide.
- The Yttrium Oxide Bulk Yttria Ceramic Nozzle Insert TGN is capable of withstanding extremely high temperatures without degrading, thanks to the superior thermal stability of yttrium oxide.
2. High Chemical Resistance
- This nozzle insert offers excellent resistance to a wide range of corrosive substances, including acids, alkalis, and reactive gases, making it ideal for use in chemically aggressive environments.
- This nozzle insert offers excellent resistance to a wide range of corrosive substances, including acids, alkalis, and reactive gases, making it ideal for use in chemically aggressive environments.
3. Low Thermal Expansion
- The low coefficient of thermal expansion ensures the nozzle insert maintains dimensional stability, reducing the risk of thermal stress and deformation under extreme temperature variations.
- The low coefficient of thermal expansion ensures the nozzle insert maintains dimensional stability, reducing the risk of thermal stress and deformation under extreme temperature variations.
4. High Mechanical Strength
- The yttrium oxide ceramic material provides high mechanical strength, allowing the nozzle insert to resist wear and extend its operational life, even under high-stress conditions.
- The yttrium oxide ceramic material provides high mechanical strength, allowing the nozzle insert to resist wear and extend its operational life, even under high-stress conditions.
5. Excellent Thermal Shock Resistance
- The nozzle insert can endure rapid temperature changes without cracking or failing, making it suitable for dynamic industrial processes that involve frequent thermal cycling.
- The nozzle insert can endure rapid temperature changes without cracking or failing, making it suitable for dynamic industrial processes that involve frequent thermal cycling.
6. High Purity Material
- Manufactured from high-purity yttrium oxide, the TGN nozzle insert minimizes contamination risks, which is crucial for maintaining process integrity in sensitive applications.
- Manufactured from high-purity yttrium oxide, the TGN nozzle insert minimizes contamination risks, which is crucial for maintaining process integrity in sensitive applications.
Applications
1. Semiconductor Manufacturing
- Ideal for applications involving high-purity requirements and exposure to reactive gases, such as in chemical vapor deposition (CVD) and plasma processes.
- Ideal for applications involving high-purity requirements and exposure to reactive gases, such as in chemical vapor deposition (CVD) and plasma processes.
2. Chemical Processing
- Suitable for use in reactors and other equipment where resistance to corrosive chemicals is essential.
- Suitable for use in reactors and other equipment where resistance to corrosive chemicals is essential.
3. Metallurgical Processes
- Used in metal processing applications where high temperatures and chemical resistance are critical, such as in the production of special alloys.
- Used in metal processing applications where high temperatures and chemical resistance are critical, such as in the production of special alloys.
4. Glass Manufacturing
- Employed in glass production processes, particularly where the handling of molten glass and exposure to aggressive chemicals are involved.
- Employed in glass production processes, particularly where the handling of molten glass and exposure to aggressive chemicals are involved.
5. Energy Sector
- Applicable in power generation systems, particularly in high-temperature gas injection or chemical reaction environments.
- Applicable in power generation systems, particularly in high-temperature gas injection or chemical reaction environments.
6. Research and Development
- Used in R&D laboratories for high-temperature and high-pressure experiments, providing reliable performance and precision.
- Used in R&D laboratories for high-temperature and high-pressure experiments, providing reliable performance and precision.
Technical Specifications
- Material: High-Purity Yttrium Oxide Bulk Yttria Ceramic
- Density: 4.5 - 5.2 g/cm³
- Young’s Modulus: 150 - 200 GPa
- Flexural Strength: 100 - 150 MPa
- Thermal Conductivity: 5 - 8 W/mK
- Coefficient of Thermal Expansion: 6 - 8 x 10⁻⁶/K
- Operating Temperature Range: Up to 1800°C
- Chemical Resistance: Excellent against acids, alkalis, and reactive gases
- Dimensions: Customizable to meet specific application requirements
- Density: 4.5 - 5.2 g/cm³
- Young’s Modulus: 150 - 200 GPa
- Flexural Strength: 100 - 150 MPa
- Thermal Conductivity: 5 - 8 W/mK
- Coefficient of Thermal Expansion: 6 - 8 x 10⁻⁶/K
- Operating Temperature Range: Up to 1800°C
- Chemical Resistance: Excellent against acids, alkalis, and reactive gases
- Dimensions: Customizable to meet specific application requirements
Benefits
- Enhanced Durability: Superior mechanical and thermal properties ensure the nozzle insert's longevity and reliability in challenging conditions.
- Extended Service Life: High resistance to thermal shock, chemical attack, and mechanical wear leads to reduced maintenance and replacement costs.
- Cost Efficiency: The durable design and material quality reduce the need for frequent replacements, lowering overall operational costs.
- Reliable Performance: Consistent performance under various conditions ensures efficient and reliable operation in critical industrial processes.
- High Purity: The high-purity yttrium oxide material minimizes the risk of contamination, making it suitable for high-purity processes.
- Extended Service Life: High resistance to thermal shock, chemical attack, and mechanical wear leads to reduced maintenance and replacement costs.
- Cost Efficiency: The durable design and material quality reduce the need for frequent replacements, lowering overall operational costs.
- Reliable Performance: Consistent performance under various conditions ensures efficient and reliable operation in critical industrial processes.
- High Purity: The high-purity yttrium oxide material minimizes the risk of contamination, making it suitable for high-purity processes.
Customization and Support
Fineceratech offers customized solutions tailored to specific requirements, including bespoke dimensions and designs for the Yttrium Oxide Ceramic Nozzle Insert TGN. Our technical support team is available to provide guidance and ensure optimal integration into your systems.
Conclusion
Fineceratech's Yttrium Oxide Ceramic Nozzle Insert TGN is designed to meet the rigorous demands of advanced industrial applications, particularly those involving high temperatures and corrosive environments. Its exceptional properties make it an ideal choice for enhancing the performance and durability of your equipment. Contact Fineceratech today to learn more about how our Yttrium Oxide Ceramic Nozzle Insert TGN can benefit your operations.
