Sapphire for LEDsSapphire for LEDs Sapphire ingots are mainly used for high brightness LED substrates (2-6 inches). LED applications: lamps of all types, backlit TVs, laptops, mobile phones, outdoor advertising and etc. LED is the key sapphire application in our days. LED substrates are the most effective sapphire application in comparison of cost and quality.

Sapphire for microelectronicsSapphire for microelectronics Sapphire substrates are the largest sapphire application. Sapphire substrates are used for semiconductor film epitaxy (GaN, Si, AlGaN and others) and for producing of integrated circuits. The sapphire substrates advantages are inertness, mechanical load and high temperature operation ability, large diameter. Therefore sapphire substrates are used even when lattice parameters don’t coincide with the heteroepitaxial structure parameters.

Sapphires for opticsSapphires for optics Sapphire is widely used for optic and optoelectronic devices such as: observation windows (with dimensions from several millimeters to several hundred millimeters) used on land, underwater and in space; lenses and prisms; all temperature LEDs; focusing cones; high-temperature protective covers for thermocouples; special lamp shells; navigation device protective caps and many others.

Sapphires for medical equipmentSapphires for medical equipment Sapphire applications in medicine: implants, surgery and medical devices. Sapphire can be implanted into the body tissues because it doesn’t react with organic acids and tissues, sapphire surpass all construction materials in inertness and biocompatibility.

Sapphires for watchesSapphires for watches Synthetic sapphire is used for watch jewels manufacturing (axial and friction bearings). It is an affordable, stable quality, solid and durable material for friction units. Watch glasses made of light-colored and wait sapphire are used by all known watch manufacturers. The matter is not just in fashion, there are no scratches on the sapphire glasses.




1. 在最近十年之内,在全世界通过多次的大规模生产晶体实践来证明凯罗泡洛斯法的效率。

2. 通过晶体培养炉的控制面板,晶体生产车间的调度操纵台,互联网的远程操控实践对生产工艺流程的直接监督和控制。

3. 实现各种功能参数增长的程序控制:质量增长速度,时间增长速度,时间-电压的增长速度。

4. 研究制造长寿命的金属陶瓷高效节能受热部件内部的主要元器件。

5. 实现对晶体培养的一个额外参数的控制,即实现了对冷却主管道的散热控制。

6. 在晶体生产过程中实现对纵向温度变化率的改变—仅在模型试验阶段中得以实现。

7. 由于加热设备的个别构件和控制系统的影响,在晶体生产过程中温度出现小范围的波动。


1. 在订购方私家生产基地和生产场地上,为订购方长期培养时间型专业人才。

2. 在晶体培养的过程中,以在线方式实时为订购方提供咨询服务。