Sapphire Optical Windows
BF33 Borofloat 33 Glass Wafer for Semiconductor MEMS Optical
Introduction of BF33 glass wafer The BF33 glass wafer—widely known as BOROFLOAT 33 or BF 33—is a premium borosilicate float glass wafer manufactured by SCHOTT, noted for its exceptional thermal, optical, chemical, and mechanical properties. The “33” in its name refers to its coefficient of thermal expansion (CTE) of approximately 3.3 ppm/°C, a characteristic that closely matches silicon, making it a preferred choice for semiconductor and microelectronic applications.
Round Polished Sapphire Optical Windows Scratch Resistance With Hole
high temperature pressure temperature abrasion resistance sapphie step optical lens hardness 9.0 sapphire bearing for rolling bearing components/prolate ellipse/plano/Round Sapphire optical glass window sector sapphire glass/ sapphire window/sapphire optical plate for vacuum equipment watch window Welcome to Know Sapphire~~ Synthetic sapphire is transparent single crystal 99.99% pure Al2O3 that exhibits a unique combination of physical, chemical, electrical and optical
Ultra Thin Sapphire Substrate Wafer High Optical Transmittance DSP Shaped Windows
Ultra-thin 2inch sapphire DSP wafers thickness 100um 0.1mm 2inch 100um Ultra Thin sapphire wafers 0.1mm Thickness C-plane DSP Sapphire wafer Why Sapphire? FEATURES OF SINGLE CRYSTAL SAPPHIRE 1. Sapphire has a high optical transmittance, so it is widely used as microelectronic tube dielectric material, ultrasonic conduction element, waveguide laser cavity, and other optical elements, as window materials for infrared military devices, space vehicles, high-intensity lasers and
TiO₂ Single Crystal Prism with 3-Side Polished Surfaces and <001>/<110> Orientation for Optical Research
TiO₂ Single Crystal Triangular Prism 8 mm × 8 mm × 3.6 mm | / Orientation | 3-Side Polished Product Overview The TiO₂ Single Crystal Triangular Prism is a precisely fabricated optical component made from high-quality titanium dioxide single crystal. Designed with accurate crystallographic orientation and controlled dimensions, this prism is ideal for advanced optical experiments, anisotropic material studies, and crystal physics research. With a compact size of 8 mm × 8 mm
Fused Quartz Ingot (Fused Silica Ingot) High-Purity Semiconductor Grade Material
Product Overview Fused Quartz Ingot, also known as fused silica ingot, is a high-purity silicon dioxide (SiO₂) material produced through high-temperature melting. As the upstream raw material for various quartz products, fused quartz ingots are widely used in quartz tubes, rods, plates, wafers, and precision quartz optical and semiconductor components. They are essential in the semiconductor, photovoltaic, optical, and high-end industrial sectors. These ingots offer high
Through-Hole Transparent Sapphire Components
Product Overview Through-hole transparent sapphire components are precision-engineered optical and structural parts made from single-crystal aluminum oxide (Al₂O₃). Featuring excellent optical clarity and unmatched mechanical strength, these components combine transparency, hardness, and chemical resistance, making them ideal for demanding environments. The through-hole design allows for precise alignment, fluid passage, or mounting functions in optical, mechanical, and
Customizable Irregular-shaped Sapphire Window for Optical Use
Customizable Irregular-shaped Sapphire Window for Optical Use ZMSH Customizable Irregular-shaped Sapphire Windows: ZMSH’s Sapphire Windows offer exceptional durability and optical performance, with a transmission range from UV to 5µm. As one of the hardest optical materials available, second to diamond, sapphire is ideal for harsh environments, offering resistance to extreme temperatures, chemical corrosion, and high radiation. Sapphire is naturally birefringent, meaning it
AR Coated Sapphire Optical Window Customizable Diemensions for Imaging Applications
AR Coated Sapphire Optical Window Customizable Diemensions for Imaging Applications Introduction of Sapphire Window: A sapphire optical window refers to a sapphire window product designed for optical applications such as imaging, detection, and scanning. Because sapphire has broad-spectrum transmission capability — from ultraviolet (UV) to near-infrared (NIR) — sapphire optical windows can reduce the number of glass elements required in optical instruments and significantly
Sapphire Dome Window High-Precision for Optical and Infrared Infrared Sensors
Product Overview Sapphire domes are high-performance optical components made from single-crystal aluminum oxide (Al₂O₃), renowned for their exceptional hardness, optical clarity, and thermal stability. With a Mohs hardness of 9, just below diamond, sapphire domes provide outstanding resistance to scratches, abrasion, and environmental damage. Their superior transmission from ultraviolet (UV) through infrared (IR) wavelengths makes them ideal protective windows and sensor
Sapphire Optical Windows 2-100mm Thickness Ideal Materials for Harsh Conditions
Sapphire Optical Windows 2-100mm Thickness Ideal Materials for Harsh Conditions Product Introduction: A sapphire optical window is the ideal window material for many UV and IR applications because it can transmit so far into the UV Diameter 300mm Sapphire Optical Windows Clear Color 1mm - 100mm Thickness 0 nd IR bands. With its thermal and chemical robustness, a sapphire window can be exposed to extreme plasmas and temperatures, far greater than any other material, and
Sapphire Optical Windows High-Performance Optical Components
Overview of Sapphire Optical Window Sapphire optical windows are high-performance components made from single-crystal aluminum oxide (Al₂O₃). Due to their unique crystalline structure, sapphire windows exhibit: Outstanding hardness Excellent optical transmission Superior thermal and chemical stability Exceptional mechanical strength They are widely used in aerospace, defense, optics, medical instruments, and industrial applications where durability and reliability are
Sapphire Balls High-Precision Components Bearings Optical High Compressive
Overview of Sapphire Ball We specialize in the production of high-precision sapphire and ruby balls with diameters ranging from 0.60 mm to 150 mm. Manufactured from synthetic single-crystal aluminum oxide (Al₂O₃), these balls exhibit extraordinary hardness, outstanding wear resistance, and exceptional chemical stability. With a Mohs hardness of 9, they are second only to diamond, offering long-lasting performance even under extreme operating conditions. Sapphire and ruby
UV / IR Grade Quartz Through Hole Plates Custom Cut High Temperature Chemical
Overview of Quartz Plate Quartz plates with through-holes are engineered components fabricated from high-purity silica glass, available in custom dimensions and complex geometries. These shaped quartz substrates are designed to support high-performance applications in optics, microfluidics, vacuum systems, and high-temperature manufacturing. The integrated holes allow for beam alignment, gas flow, fiber feedthroughs, or mounting functions. The plates are offered in various
Custom Shaped Fused Quartz Plates With Through Holes Optical
Introduction of Custom Shaped Fused Quartz Plates Quartz through-hole shaped plates are high-precision optical or structural components made from ultra-pure quartz materials. These custom-shaped plates feature one or more holes drilled through the substrate and are used in applications requiring high thermal resistance, chemical durability, and precise light or fluid passage. Available in JGS1, JGS2, and JGS3 grades, these quartz plates support a wide range of photonic,
Quartz Prisms UV Grade Beam Steering Optics For Laser And Imaging Systems
Introduction of Quartz Prisms Quartz prisms are high-precision optical components made from high-purity fused or crystalline quartz (SiO₂). They are designed to manipulate light through refraction and reflection, making them essential in a wide range of photonics, laser, imaging, and analytical systems. Compared to standard optical glass, quartz prisms offer superior UV transparency, thermal and chemical resistance, and dimensional stability, making them ideal for demanding
Fused Quartz Optical Prisms UV / VIS Transmission Custom Angles
Fused Quartz Optical Prisms UV/VIS Transmission Custom Angles Definition of Fused Quartz Optical Prisms A prism is an optical element in which one or more reflective surfaces are ground into a single piece of glass. It functions to redirect light paths, invert or rotate images, and can be considered as a combination of planar mirrors. Prisms are widely used in laser research, laser optical systems, optical imaging, machine vision, life sciences, and biomedical applications or
Quartz Glass Windows CNC Machined Irregular Fused Silica Plates For Optical And Laser Systems
Quartz Glass Windows CNC Machined Irregular Fused Silica Plates for Optical and Laser Systems Overview Customized fused silica optical windows in irregular formats are designed to meet specialized mechanical and optical demands. These non-standard shapes—ranging from arcs and ovals to complex patterns with through-holes—are widely adopted in devices where integration flexibility, optical clarity, and extreme environmental resistance are critical. Crafted from premium
Custom Irregular-Shaped Quartz Optical Windows Precision Fused Silica Viewports
Custom Irregular-Shaped Quartz Optical Windows Precision Fused Silica Viewports Overview of Quartz Optical Windows Irregular-shaped quartz glass windows are custom-designed optical components fabricated from high-purity fused silica. Unlike standard circular or square window plates, these specialized windows come in customized forms such as elliptical, polygonal, arc-edged, stepped, or notched geometries. They are engineered for systems requiring optical transmission through
Quartz Glass Window UV Fused Silica Optical Viewport Custom Size Coating Available
Quartz Glass Window | UV Fused Silica Optical Viewport | Custom Size & Coating Available Overview Quartz glass windows, also known as fused silica windows or quartz optical windows, are precision flat components made from high-purity silicon dioxide (SiO₂). They are widely used in optical, industrial, and scientific applications due to their outstanding thermal stability, high UV to IR transmission, low thermal expansion, and excellent chemical resistance. Quartz windows are
Fused Silica Quartz Glass Window SiO2 UV-Infrared Transmitting Laser
Fused Silica Quartz Glass Window SiO2 UV-Infrared Transmitting, Laser Product Introduction of Fused Silica Quartz Glass Window The SiO₂ quartz glass plate, also known as a quartz window, quartz substrate, or transparent silica sheet, is an amorphous material manufactured from high-purity silicon dioxide. It exhibits outstanding optical transmittance, thermal resistance, extremely low thermal expansion, excellent dielectric strength, and exceptional chemical inertness.