Product Details
Place of Origin: CHINA
Brand Name: ZMSH
Certification: rohs
Model Number: Sapphire light cone
Payment & Shipping Terms
Price: by case
Payment Terms: T/T
Material:: |
Silicon Single Crystal Lens |
Grade:: |
Dummy /Production Grade |
Thicnkss:: |
0.5MM |
Suraface:: |
Polished |
Coating:: |
Uncoated, AR, BBAR, Reflective |
Application:: |
Bearing Test |
Material:: |
Silicon Single Crystal Lens |
Grade:: |
Dummy /Production Grade |
Thicnkss:: |
0.5MM |
Suraface:: |
Polished |
Coating:: |
Uncoated, AR, BBAR, Reflective |
Application:: |
Bearing Test |
Coated monocrystalline silicon lenses for optical imaging Custom silicon components for optical lenses
Sapphires are cone-shaped parts made of sapphire material. These crystals are usually composed of sapphire crystals, grown under controlled conditions and carefully machined to form the necessary cone shape.
Sapphire glass cone tower inherits the characteristics of high hardness, optical transparency, high thermal conductivity, strong scratch resistance, chemical corrosion resistance, and strong thermal function. Due to this characteristic, sapphire cones can be used in a variety of applications such as optics, semiconductor components, high temperatures, special sensors, and more.
In specific areas such as aerospace, defense, and research, sapphire devices or systems can be used in devices or systems that are critical to their reliability, reliability, and appearance. They can also be used in measurement applications such as lasers, optics or sensors, as well as high-performance imaging systems.
Sapphire glass has stability, at the extreme temperature of 1950℃, it can maintain its shape, and the degradation of mechanical properties is minimal. This unique property makes sapphire crystal the best choice for a variety of applications, including high temperature combustion chambers, gas processing.
In the field of high temperature furnace systems and ships, sapphire crystals can be used as planes and supports to maintain the overall dimensional integrity and flatness at temperatures up to 1950°C. The superior chemical resistance of sapphire also ensures that even under harsh high temperature conditions, many substances will not stick to the sapphire window.
Sapphire is the material of choice for its reliability, strength, wide transmission spectrum or for demanding applications with minimal transmitted wavefront distortion, transmitting minimal wave distortion at high and low temperatures. Sapphires are transparent under ultraviolet and infrared light and can only be scratched by a few substances other than the sapphire itself. In addition, sapphire glass, whether in an oxidized environment or in an inert environment, has the highest temperature rating in all optical materials.
Artificial sapphire is the crystalline version of corundum, also known as pure single crystal aluminum oxide (Al2O3). The unique mixing properties make sapphire the material of choice for hard applications in mechanical, chemical and optical fields. The main characteristics of sapphire glass are as follows.
| Chemical formula: | Al₂O₃ (alumina) |
| Name corundum: | sapphire, α-alumina |
| Hardness: | 9 Mohs hardness |
| Crystal structure: | hexagonal system - scalenohedron |
| Melting point: | 2053°C (3727°F) |
| Maximum operating temperature: | 2000°C |
| Surface quality: | 80/50, 60/40, 40/20, 20/10 (scratches/spot defects) |
| Crystal axis orientation: | C axis (C plane), M plane, A plane, R plane and random orientation |
| Young's Modulus: | 435 |
| Tensile Strength: | 275 MPa to 400 MPa |
| Flexural Strength: | 480 MPa to 895 MPa |
| Modulus of Rigidity: | 175 GPa |
| Density (g/cm3): | 3.97 |
| Transmission Range: | 190nm to 5 microns |
| Poisson's Ratio: | 0.27 - 0.30 |
| Abbe Number (vd): | 72.24 |
| Dimension Tolerance: | ± 0.01-0.10mm |
| Thickness Tolerance: | ± 0.10mm |
Sapphire optical glass is a special material for UV and IR, with excellent transmission capacity in both UV and IR ranges. Its strong thermal and chemical properties enable it to withstand extreme plasma environments, temperatures and performance higher than alternative materials. Even under such harsh conditions, sapphire crystals retain the ability to transmit high-intensity ultraviolet, visible and infrared light for a long time without decay.
These unique characteristics make sapphire Windows the preferred choice for UV/VIS/IR sensors, infrared surveillance, reconnaissance, and wideband detection equipment, especially in environments where wear is easy.
Sapphire glass materials are preferred for high temperature measurements, providing a wide range of wavelength transmission, effectively isolating hot areas up to 2000°C from external observation at room temperature. This makes sapphire glass an effective choice for furnaces and high-temperature processing equipment.
In medical and dental applications that require ultraviolet disinfection, curing and infrared heat treatment, sapphire glass is the best choice.
ZMSH is a professional manufacturer of sapphire glass crystal accessories. We offer comprehensive solutions for the manufacture of sapphire optical components, including molding, grinding, drilling and polishing. In addition, we offer customized solutions to improve and optimize the performance of various applications.
We offer a wide range of sapphire optics, from round and rectangular shapes to stepped configurations. In addition, we specialize in the production of sapphire optics in a variety of shapes and sizes to meet specific requirements.
ZMSH focuses on the professional custom production and processing of sapphire materials, providing high-precision manufacturing services including sapphire rods, sapphire tubes, sapphire window pieces and various custom parts.
1. Q: What is a sapphire optical cone used for?
A: Sapphire optical cones are used for focusing, collimating, or coupling light in high-precision systems like lasers, fiber optics, and medical devices, especially in extreme environments.
2. Q: Why is sapphire used in optical components?
A:Sapphire is used due to its high hardness (9 Mohs), thermal stability (melts at 2053°C), and broad light transmission (190 nm to 5 μm), making it durable and ideal for demanding applications.
Tag: #Sapphire light cone, #Customized, #Sapphire rods, #Monocrystal Al₂O₃, #Sapphire components, #Optical glass cone, #Optical sensors
