Sapphire Hexagonal
Description
For the past 15 years single crystal sapphire has been at the cutting edge of semiconductor technology. A combination of unique chemical, physical, optical and mechanical properties make sapphire the best choice for a broad spectrum of laboratory and industrial applications. Sapphire is highly inert and resistant to attack in most process environments including hydrofluoric acid and the fluorine plasma applications commonly found in semiconductor wafer processing (NF3, CF4).
Sapphire Hexagonal
Specifications |
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|---|---|
| Crystal Type: | AgGaS2 (Silver Gallium Sulfide) |
| Phase Mathcing Type: | Not Applicable |
| Mounting: | Unmounted |
| Width: | 50 mm |
| Height: | 50 mm |
| Length: | 50 mm |
| Flatness: | <= Lambda/4 |
| Surface Quality (Scratch-Dig): | 10-5, 20-10, 40-20, 60-40, 80-50 |
| AR Coating: | Both Sides |
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Russia
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Frequently Asked Questions
Sapphire has unique chemical, physical, optical, and mechanical properties that make it highly inert, resistant to attack in most process environments, and capable of withstanding high temperatures and pressures.
Sapphire is used in medicine for endoscope and probe lenses, needles for thermal treatment of tumors, scalpels, and other precision mechanical components.
Sapphire provides high electrical insulation and a stable dielectric constant, making it suitable for LED, RF, and microwave applications.
Sapphire has high transmission in the UV to near IR range, making it ideal for window/viewport applications in high-performance vacuum systems, furnaces, deep sea cameras, and fire alarm systems.
Sapphire can be polished to very high flatness and smoothness, making it suitable for substrate applications and precision mechanical components.