-
The bent quartz rod ring is made from high-purity fused silica and formed through precision flame bending. It maintains excellent thermal resistance, low expansion, and strong chemical stability, making it suitable for high-temperature and high-purity environments.
We support full customization of outer diameter, rod diameter, bending angle, shape (round, rectangular, oval), and surface finish. These bent quartz structures are widely used in laboratory equipment, optical systems, industrial heating setups, gas flow components, and specialized custom assemblies.
-
This optical-grade quartz rectangular block is made from high-purity fused silica, offering excellent UV-to-IR transmission, high thermal stability, and extremely low thermal expansion. Its clarity and material purity make it suitable for precision optical systems, laser equipment, imaging applications, and high-accuracy measurement devices.
We support full customization, including block dimensions, thickness, flatness, parallelism, and optical-grade polishing. CNC machining, chamfering, beveling, and edge finishing are available to meet demanding technical requirements across scientific, industrial, and semiconductor environments.
-
This precision machined quartz grooved rod is produced from high-purity fused silica and processed using CNC grinding, slotting, and diamond-tool machining. The grooves can be designed in various shapes, including straight, angular, V-shaped, spiral, or stepped patterns.
These rods offer excellent thermal resistance, low expansion, and strong chemical stability, making them ideal for laboratory instruments, semiconductor equipment, mechanical alignment systems, and custom structural components.
We support full customization, including rod diameter, length, groove spacing, depth, width, and tolerances. Optional fine polishing, end-face processing, and assembly-related machining are available according to technical drawings or samples.
-
These quartz bars with machined grooves are made from high-purity fused silica and processed using precision CNC grinding, slotting, and profiling. The grooves and channels can be customized to support structural positioning, fluid or gas flow, laser alignment, or mechanical integration.
Quartz bars provide excellent thermal stability, low expansion, and high chemical resistance, making them suitable for semiconductor tools, laboratory fixtures, optical systems, and high-temperature industrial setups.
Dimensions, groove depth, width, angle, and tolerances can be manufactured according to drawings or samples, with optional polishing, chamfering, and edge finishing.
-
This quartz cylindrical lens is made from high-purity fused silica and designed to focus, shape, or collimate light in one dimension. It offers excellent UV–IR transmission, low thermal expansion, and high laser damage resistance, making it suitable for laser systems, optical testing equipment, imaging devices, and scientific instruments.
Curvature radius, length, width, thickness, and surface accuracy can all be customized. High-precision polishing, chamfering, and coating options are available to meet advanced optical requirements.
-
Quartz glass strips and bars are made from high-purity fused silica and offer excellent thermal resistance, low expansion, and strong UV transmission. They are available in various shapes—rectangular, square, rounded-edge, or custom-cut profiles—making them suitable for optical components, laboratory devices, semiconductor processing, and high-temperature industrial applications.
We provide full customization of length, width, thickness, edge finish, and precision machining such as cutting, beveling, polishing, and CNC shaping based on customer requirements.
-
This quartz rod with grooved sections is manufactured from high-purity fused silica and processed through precision CNC machining or flame working. Grooves, slots, threading, and end-face machining can be customized to meet application-specific requirements.
The material offers exceptional thermal stability, low thermal expansion, and excellent chemical resistance, making it suitable for laboratories, semiconductor equipment, optical systems, and industrial heating environments.
We support custom dimensions, groove depth, spacing, end shapes, and tolerances based on drawings or samples.
