Productoverzicht
Custom Monocrystalline Sapphire Optical Domes are precision-fabricated from synthetic single-crystal sapphire (α-Al₂O₃). Unlike natural sapphire, these domes are produced from high-purity aluminum oxide crystals using advanced crystal growth and ultra-precision optical processing techniques.
The hemispherical or hyper-hemispherical geometry maximizes the field of view (FOV) for internal imaging systems while maintaining minimal aerodynamic drag, making them ideal for missile seekers, electro-optical pods, deep-sea exploration equipment, and other high-performance optical systems.
Sapphire domes combine exceptional hardness, broad-spectrum optical transmission, pressure resistance, thermal stability, and chemical inertness, providing reliable protection for sensitive optical components in the most extreme environments.
Technische specificaties
| Parameter | Specificatie |
|---|---|
| Materiaal | Synthetic Monocrystalline Sapphire (α-Al₂O₃) |
| Hardheid | Mohs 9 (alleen diamant is beter) |
| Compressive Strength | ≥ 2 GPa |
| Coefficient of Thermal Expansion | ~5.0–5.8 × 10⁻⁶ /K |
| Overdrachtsbereik | 0.15 – 5.5 μm (UV to mid-infrared) |
| Temperature Resistance | Stable up to 2050°C |
| Chemische weerstand | Highly resistant to acids, alkalis, and seawater |
| Afwerking oppervlak | Optical-grade polishing available |
| Dimensions | Fully customizable |
| Certificering | Volgzaam RoHS |
| Verpakking | Class 100 cleanroom packaging |
Belangrijkste kenmerken
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Exceptional Hardness & Scratch Resistance
Mohs 9 hardness protects against sand, debris, and mechanical wear, ensuring long-term optical clarity. -
Broad-Spectrum Optical Transmission
Transmits ultraviolet, visible, and infrared light for UV, visible, and IR imaging systems. -
High Pressure & Impact Resistance
Designed to withstand extreme hydrostatic pressures for deep-sea applications and high-speed flight stresses in aerospace environments. -
Thermal & Chemical Stability
Resistant to extreme temperatures and corrosive environments; maintains dimensional stability and low thermal expansion. -
Low Thermal Emission
Minimizes self-radiation in the infrared range, ensuring accurate imaging for internal IR sensors.
Typische toepassingen
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Electro-Optical Pods & IRST Systems: Protective domes on military aircraft, UAVs, and naval vessels.
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Missile Seekers: Aerodynamic domes that endure aerodynamic heating and maintain optical performance.
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Deep-Sea Exploration Equipment: Observation windows and housings for ROVs and submersibles at extreme pressures.
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High-Pressure & Industrial Systems: Viewports in chemical reactors, supercritical water systems, or high-temperature sensors.
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Scientific Research Instruments: High-durability optical windows for spectroscopy, imaging, and precision measurement devices.
Manufacturing & Engineering Notes
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Crystal Growth: Large sapphire boules produced via HEM or Czochralski method.
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Orientation & Cutting: Crystal orientation optimized for mechanical and optical properties.
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Grinding & Polishing: Multi-stage ultra-precision grinding and diamond polishing achieve hemispherical surfaces with high optical clarity.
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Customization: Dimensions, thickness, curvature, and surface tolerances tailored to application requirements.
FAQ
Q1: What is a sapphire dome used for?
A: Sapphire domes serve as durable optical windows to protect sensitive sensors and cameras in aerospace, military, and deep-sea systems against extreme pressure, abrasion, and temperature.
Q2: Why is sapphire chosen for these domes?
A: Sapphire provides exceptional hardness, broad optical transmission (UV to IR), high structural strength, and chemical resistance, making it suitable for the most demanding optical protection scenarios.
Q3: Can the domes be customized?
A: Yes. Size, curvature, thickness, crystal orientation, and surface finish can all be tailored for specific aerospace, defense, or marine applications.
Beoordelingen
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