Send Message
Products
Products
Home > Products > Sapphire Optical Windows > Sapphire Optical Windows Glass Al2O3 High-Performance High Purity Transparent Polished Winodws

Sapphire Optical Windows Glass Al2O3 High-Performance High Purity Transparent Polished Winodws

Product Details

Place of Origin: China

Brand Name: ZMSH

Model Number: Sapphire Optical Windows

Payment & Shipping Terms

Delivery Time: 2-4 weeks

Payment Terms: T/T

Get Best Price
Highlight:
Customization:
Support
Material:
Monocrystal Al2O3
Plane:
C Or A
Purity:
99.999%
Hardness:
9.0 Mohs
Growth Method:
Ky
Customization:
Support
Material:
Monocrystal Al2O3
Plane:
C Or A
Purity:
99.999%
Hardness:
9.0 Mohs
Growth Method:
Ky
Sapphire Optical Windows Glass Al2O3 High-Performance High Purity Transparent Polished Winodws

sapphire optical windows, Al2O3 single crystal glass, sapphire optical glass, Al2O3 single crystal windows, sapphire optical, Al2O3 single crystal glass optical glass windows by sapphire

Sapphire Optical Windows Glass Al2O3 High-Performance High Purity Transparent Polished Winodws 0


Sapphire optical windows feature

+ High performance, high quality and wear resistance 

 

+ Size and Thickness can be customized for your needs

 

+ High vision light transmissivity with 85%

 

+ High purity Sapphire to manufacture (99.999 Al2O3)

 

+ Widely used in the high-tech industry.

 

 


About Sapphire 

Sapphire Optical Window is a type of window made from sapphire crystal.

Sapphire is a natural gemstone known for its outstanding hardness, strength, and superior optical properties.

It is commonly used as a protective window for sensors, capable of withstanding higher pressure and stronger vibrations.

 

It possesses characteristics such as high strength, high hardness, high-temperature stability, and corrosion resistance. Additionally, it can resist corrosion from various chemicals. Due to its excellent optical performance, sapphire optical windows can also support more stable optical signal transmission.

 

Furthermore, sapphire windows exhibit features like a high excitation energy threshold and good thermal shock resistance, making them widely used in high-energy, high-power lasers, ultrafast lasers, and other high-precision research fields.

 

Besides, 

Sapphire belongs to the trigonal crystal system.

The crystal shape is usually cylindrical, short columnar, plate-like, etc.

 

The geometric body is mostly granular or dense blocks.

Transparent to translucent, glass lustre. Refractive index 1.76-1.77, birefringence 0.008, strong dichroism.

 

Inhomogeneous body. Sometimes there is a special optical effect - the starlight effect.
Hardness 9, density 3.95-4.1g/cm3. No cleavage, or crack development.


 

*Details about sapphire optical windows

Diameter 3-25mm or customized
Diameter Tolerance +0.0/-0.1mm
Thickness 2-10mm
Thickness Tolerance ±0.2mm
Parallelism <30"
Surface Quality 40-20
Bevel 0.2-0.5mmX45°
Surface Figure λ/4@633nm
Material Optical Sapphire

 


 

More Samples of sappire optical windows

Sapphire Optical Windows Glass Al2O3 High-Performance High Purity Transparent Polished Winodws 1 

*We accept customisation if you have specific requirements.


 

Recommend Products

1. AL2O3 Optical Window Glass Sapphire Wafer For Vacuum Equipment

Sapphire Optical Windows Glass Al2O3 High-Performance High Purity Transparent Polished Winodws 2

 

2. 2 Inch Monocrystalline Sapphire Wafer Double Sides Polished Al2O3 99.999% Single Crystal Substrate

Sapphire Optical Windows Glass Al2O3 High-Performance High Purity Transparent Polished Winodws 3


FAQ

1. Q: How do sapphire optical windows perform in extreme conditions?

    A: Sapphire optical windows perform exceptionally well in extreme conditions, including high pressure, high radiation, and vacuum environments.

 

2. Q: What is the difference between sapphire wafers and sapphire optical windows?

    A: Sapphire windows are used for protection and optical clarity in harsh environments, offering durability and high transparency,

     while sapphire wafers are thin, flat disks used as substrates in semiconductor manufacturing, providing a smooth surface for fabricating electronic devices.