ống sapphire đánh bóng hoặc không đánh bóng Độ cứng và độ bền cao hơn

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ống sapphire đánh bóng hoặc không đánh bóng Độ cứng và độ bền cao hơn

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July 19, 2024

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Tóm tắt: Discover the exceptional properties of sapphire tubes, polished or unpolished, offering superior hardness and wear resistance. Ideal for high-tech applications in optics, lasers, and biomedical devices, these tubes provide unmatched durability and performance.

Tính năng sản phẩm liên quan:

High optical transparency from UV to near-infrared wavelengths, perfect for optical windows and lenses.
Exceptional hardness (9 on the Mohs scale) and high tensile strength, comparable to steel.
Highly resistant to chemical attack from acids, alkalis, and most solvents, ensuring long-term stability.
Excellent thermal conductivity (about 46 W/m*K) for effective heat management in high-power systems.
Superior electrical insulation properties, crucial for high-voltage and high-frequency applications.
Maintains mechanical and optical properties at temperatures up to 2000°C, suitable for extreme environments.
Non-reactive with bodily tissues, making it ideal for biomedical applications like implantable devices.
High resistance to wear and abrasion, ensuring durability in demanding industrial applications.

CÂU HỎI THƯỜNG GẶP:

What are the main applications of sapphire tubes?

Sapphire tubes are used in laser systems, semiconductor manufacturing, high-temperature furnaces, biomedical devices, optical instruments, high-pressure systems, industrial sensors, and research applications due to their durability and performance.
How is sapphire glass made?

Sapphire glass is made using methods like the Verneuil (flame fusion), Czochralski (CZ), or Heat Exchanger Method, where aluminum oxide is melted and crystallized into high-quality sapphire crystals, then cut and processed into desired shapes.
What makes sapphire tubes suitable for high-temperature environments?

Sapphire tubes maintain their mechanical and optical properties at temperatures up to 2000°C, thanks to their excellent thermal conductivity and high-temperature resistance, making them ideal for extreme thermal environments.