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Product Introduction
Fineceratech Silicon Carbide Optical Mirror Product Introduction
Overview
Fineceratech's Silicon Carbide (SiC) Optical Mirrors are meticulously crafted to provide unparalleled performance and reliability in a wide range of optical applications. Leveraging the superior properties of silicon carbide, these optical mirrors offer exceptional thermal stability, high stiffness, and low weight, along with excellent resistance to wear and corrosion. They are ideal for use in advanced optical systems, including telescopes, laser systems, and other precision instruments requiring high reflectivity and stability.
Fineceratech's Silicon Carbide (SiC) Optical Mirrors are meticulously crafted to provide unparalleled performance and reliability in a wide range of optical applications. Leveraging the superior properties of silicon carbide, these optical mirrors offer exceptional thermal stability, high stiffness, and low weight, along with excellent resistance to wear and corrosion. They are ideal for use in advanced optical systems, including telescopes, laser systems, and other precision instruments requiring high reflectivity and stability.
Key Features
1. High Reflectivity
- Silicon carbide mirrors are designed to provide high reflectivity across a broad spectrum, ensuring optimal performance in various optical applications.
- Silicon carbide mirrors are designed to provide high reflectivity across a broad spectrum, ensuring optimal performance in various optical applications.
2. Thermal Stability
- Exceptional thermal stability ensures that the mirrors maintain their shape and performance under fluctuating temperature conditions, making them suitable for high-precision applications.
- Exceptional thermal stability ensures that the mirrors maintain their shape and performance under fluctuating temperature conditions, making them suitable for high-precision applications.
3. Mechanical Strength
- High stiffness and mechanical strength guarantee the structural integrity of the mirrors, even under high-stress conditions.
- High stiffness and mechanical strength guarantee the structural integrity of the mirrors, even under high-stress conditions.
4. Lightweight Design
- The low density of silicon carbide results in a lightweight mirror, which is particularly beneficial for applications requiring minimal weight without compromising performance.
- The low density of silicon carbide results in a lightweight mirror, which is particularly beneficial for applications requiring minimal weight without compromising performance.
5. Wear and Corrosion Resistance
- Superior resistance to wear and corrosion extends the lifespan of the mirrors, reducing maintenance needs and ensuring long-term reliability.
- Superior resistance to wear and corrosion extends the lifespan of the mirrors, reducing maintenance needs and ensuring long-term reliability.
Applications
1. Astronomical Telescopes
- Ideal for use in astronomical telescopes, providing high reflectivity and stability for precise and accurate observations.
- Ideal for use in astronomical telescopes, providing high reflectivity and stability for precise and accurate observations.
2. Laser Systems
- Suitable for high-power laser systems, ensuring reliable performance and minimal thermal distortion.
- Suitable for high-power laser systems, ensuring reliable performance and minimal thermal distortion.
3. Space Telescopes and Instruments
- Perfect for space applications, where lightweight and high-performance materials are essential for successful missions.
- Perfect for space applications, where lightweight and high-performance materials are essential for successful missions.
4. Precision Optical Instruments
- Used in a variety of precision optical instruments, ensuring high accuracy and stability in demanding environments.
- Used in a variety of precision optical instruments, ensuring high accuracy and stability in demanding environments.
5. Scientific Research
- Applicable in scientific research facilities requiring high-quality optical components for various experimental setups.
- Applicable in scientific research facilities requiring high-quality optical components for various experimental setups.
Technical Specifications
- Material: Silicon Carbide (SiC)
- Density: 3.1-3.2 g/cm³
- Young’s Modulus: 410 GPa
- Flexural Strength: 400 MPa
- Thermal Conductivity: 120 W/mK
- Coefficient of Thermal Expansion: 4.0 x 10⁻⁶/K
- Reflectivity: High reflectivity across a broad spectrum
- Surface Quality: Customizable to meet specific optical requirements
- Dimensions: Customizable to meet specific application requirements
- Density: 3.1-3.2 g/cm³
- Young’s Modulus: 410 GPa
- Flexural Strength: 400 MPa
- Thermal Conductivity: 120 W/mK
- Coefficient of Thermal Expansion: 4.0 x 10⁻⁶/K
- Reflectivity: High reflectivity across a broad spectrum
- Surface Quality: Customizable to meet specific optical requirements
- Dimensions: Customizable to meet specific application requirements
Benefits
- Enhanced Durability: Exceptional mechanical and thermal properties ensure long-lasting performance and reliability in demanding conditions.
- Precision Performance: High reflectivity and stability enable precise and accurate performance in various optical applications.
- Extended Service Life: High resistance to wear and corrosion extends the lifespan of the mirrors, reducing maintenance and replacement costs.
- Cost Efficiency: Reduced maintenance and downtime lead to lower overall operational costs.
- Reliable Performance: Consistent performance in variable conditions ensures stable and efficient operation of optical systems.
- Precision Performance: High reflectivity and stability enable precise and accurate performance in various optical applications.
- Extended Service Life: High resistance to wear and corrosion extends the lifespan of the mirrors, reducing maintenance and replacement costs.
- Cost Efficiency: Reduced maintenance and downtime lead to lower overall operational costs.
- Reliable Performance: Consistent performance in variable conditions ensures stable and efficient operation of optical systems.
Customization and Support
Fineceratech offers tailored solutions to meet specific application needs, including custom dimensions, surface quality, and designs. Our technical support team is available to provide guidance and ensure optimal integration of the SiC Optical Mirrors into your systems.
Conclusion
Fineceratech's Silicon Carbide Optical Mirrors are a premium solution designed to meet the rigorous demands of advanced optical applications. Their exceptional properties make them a reliable and efficient choice for enhancing the performance and durability of your optical systems. Contact Fineceratech today to learn more about how our SiC Optical Mirrors can benefit your operations.
Notes. The above values are based on the reference values determined bythe test piece. The actual property values mayvarydependino on the shape of the product and the ooerating conditions. The information, suggestions, and opinions provided herein arejust for your consideration, inguiry, and verification purposes, but not construed in part or in wnole as warranties and representotionswhich constitute our legal liability.
The whole process of SIC mirror blank production is covered
The company has the R&D, production, processing and testing capabilities of the whole industrial chain of silicon carbide ceramic materials, independently develops special powders for silicon carbide mirrors, and can use a variety of molding methods to produce various types of mirror blanks
High-performance SIC blank forming
Isostatic pressing silicon carbide blank:
• High hardness and density
• Thermal stability over a wide temperature range
• Maximum single piece dimensions: DN800mm diameter and 1500mm length
3D Printed Sintered Silicon Carbide Mirror Blanks:
- Large size, lightweight, monolithic, complex and unconventional shapes;
- maximum single part dimensions of DN1500mm in diameter and DN2500mm in length, without the need for mold production.
Fields of application
Reconnaissance imaging systems, high-energy lasers, lidar systems, X-ray synchrotron radiation, vacuum ultraviolet telescopes, large astronomical telescopes and meteorological satellites.
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