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| اسم العلامة التجارية: | ZMSH |
| الـ MOQ: | 2 |
| السعر: | by case |
| تفاصيل التعبئة: | كرتون مخصص |
| شروط الدفع: | ر/ر |
Polished sapphire tubes are precision-engineered components made from single-crystal aluminum oxide (Al₂O₃, 99.99%), renowned for their exceptional hardness, chemical inertness, and optical transparency. After high-temperature crystal growth (typically by the KY or EFG method), the tubes are meticulously ground and polished to achieve mirror-like inner and outer surfaces. This process enhances both optical performance and dimensional accuracy, making polished sapphire tubes ideal for demanding optical, mechanical, and electronic applications.
Sapphire (Al₂O₃ single crystal) is second only to diamond in hardness (Mohs 9), offering outstanding wear resistance, high compressive strength, and thermal stability up to 2000°C in inert environments. The material exhibits broad optical transmission from the ultraviolet (UV) through visible to the infrared (IR) spectrum (190 nm – 5 µm), as well as excellent dielectric properties and low thermal expansion, ensuring long-term reliability under harsh conditions.
Crystal Growth: High-purity alumina is melted and grown into a single-crystal sapphire boule using KY (Kyropoulos) or EFG (Edge-Defined Film-Fed Growth) techniques.
Cutting & Shaping: The crystal is sliced and shaped into tubes using diamond tools.
Grinding & Lapping: Precise grinding ensures accurate wall thickness and uniform geometry.
Polishing: Multi-stage chemical-mechanical polishing produces high optical clarity and low surface roughness (Ra < 10 nm).
Inspection & Cleaning: Each tube undergoes dimensional and optical inspection to meet semiconductor or optical-grade standards.
Optical systems: As protective sleeves for fiber optics, laser assemblies, and spectroscopic cells.
Semiconductor and vacuum systems: For plasma chambers, wafer processing, and viewports in high-vacuum or corrosive environments.
High-temperature instrumentation: Serving as transparent windows or insulators in furnaces, reactors, or thermal imaging systems.
Medical and analytical equipment: In sensors, capillaries, and high-purity flow paths where chemical resistance and sterilizability are essential.
Aerospace and defense: As high-durability optical housings or protective enclosures exposed to extreme stress and temperature.
Ultra-smooth polished surfaces minimize light scattering and contamination.
Exceptional chemical and corrosion resistance, compatible with most acids and alkalis.
Superior optical transmission across a wide wavelength range.
Excellent mechanical strength and dimensional stability at high temperature.
Long service life in demanding mechanical, optical, or chemical environments.
| Parameter | Value / Range |
|---|---|
| Material | Single Crystal Al₂O₃ (Sapphire) |
| Outer Diameter | 1 mm – 80 mm (customizable) |
| Inner Diameter | 0.5 mm – 70 mm |
| Length | Up to 300 mm |
| Surface Finish | Optical polish, Ra ≤ 10 nm |
| Orientation | C-plane, A-plane, or random |
| Transmission Range | 190 nm – 5000 nm |
| Maximum Operating Temperature | 2000°C (inert gas) |
Q1: What’s the difference between polished and unpolished sapphire tubes?
A1: Polished sapphire tubes have optically smooth surfaces for light transmission and reduced scattering, while unpolished tubes are matte and used mainly for mechanical or insulating purposes.
Q2: Can sapphire tubes be customized?
A2: Yes, dimensions, surface finish, crystal orientation, and end shape (flat, beveled, domed) can be tailored to specific project requirements.
Q3: Are sapphire tubes resistant to thermal shock?
A3: Yes, sapphire has excellent thermal shock resistance compared to glass or quartz, making it suitable for rapid temperature fluctuations.
Q4: How does sapphire compare to quartz?
A4: Sapphire is significantly harder, more scratch-resistant, and can operate at higher temperatures than quartz, though it is more expensive.
