Custom High Precision CNC Machined Quartz Tubes
- Product Item : HYRD-A028
- Category: Quartz Tubes
- Material: High purity quartz glass
- Tolerance: ±0.01mm
- Process: CNC machined
- Minimum Order Quantity: Negotiable
Custom High Precision CNC Machined Quartz Tubes
Custom high-precision CNC machined quartz tubes are advanced components made from fused silica (quartz glass), meticulously shaped using Computer Numerical Control (CNC) machining to meet exact dimensional and functional requirements. These tubes combine the superior properties of quartz with ultra-precise manufacturing techniques, making them essential for industries demanding tight tolerances, complex geometries, and exceptional performance under extreme conditions.Key Features & Advantages
✔ Ultra-High Precision – CNC machining ensures micron-level accuracy (±0.01mm or better) for intricate shapes, threads, holes, and custom profiles.
✔ Superior Material Properties – Retains quartz’s high thermal stability (up to 1200°C), low thermal expansion, and chemical inertness.
✔ Optical Clarity & UV Transmission – Ideal for laser, optical, and photonic applications.
✔ Customizable Designs – Can be fabricated with specialized end forms, flanges, grooves, tapers, and surface finishes.
✔ Strict Quality Control – Each tube undergoes rigorous inspection for dimensional accuracy and defect-free performance.
Common Applications
✔ Semiconductor & Optics – Wafer handling, plasma etching, laser components.
✔ Aerospace & Defense – Sensor housings, IR windows, missile guidance systems.
✔ Medical & Biotechnology – Surgical tools, endoscopes, microfluidic devices.
✔ Scientific Research – Vacuum chambers, particle detectors, synchrotron beamlines.
✔ Industrial Processes – High-temperature reactors, precision fluid delivery systems.
Why Choose CNC Machined Quartz Tubes?
Unlike standard quartz tubing, CNC-machined quartz allows for complex geometries, tight tolerances, and repeatable production, making it indispensable for cutting-edge technologies where off-the-shelf solutions fall short.
