Custom-Designed Vacuum Chambers
We design and manufacture high-performance vacuum systems tailored for scientific R&D, analytical laboratories, and spectroscopy applications. Our systems are engineered for precision, stability, and flexibility — ensuring optimal performance for research in material science, plasma physics, laser spectroscopy, and surface analysis.
With deep expertise in vacuum engineering and system integration, we provide complete turnkey solutions — from compact bench-top setups to fully customized high-vacuum (HV) and ultra-high-vacuum (UHV) systems. Every system is built with robust materials, precision sealing, and advanced pumping technologies to deliver consistent results in demanding experimental environments.
| Category | Specification / Options |
|---|---|
| Chamber Shape | Cylindrical, rectangular box, spherical, custom geometry |
| Materials | 304 / 316L stainless steel, aluminum, hybrid designs |
| Pressure Range | High vacuum (10⁻³–10⁻⁶ Torr), UHV options on request |
| Flange Standards | KF (NW), ISO, CF (ConFlat), custom adapters |
| Port Sizes | DN16–DN200 or custom; side, top, bottom, angled ports |
| Viewports | Fused silica, quartz, borosilicate, sapphire windows |
| Feedthroughs | Electrical, RF, thermocouple, gas, fluid, motion feedthroughs |
| Pump Interfaces | Flanges for rotary/scroll, turbo, cryo, ion pumps |
| Internal Structures | Shelves, masks, heater mounts, sample holders, rails |
| Surface Finish | Standard mechanical finish, electropolished, UHV clean prep |
| Cooling Options | Water-cooled flanges, jackets, or custom cooling channels |
| Documentation | 3D CAD model, 2D drawings, leak test or vacuum test report |
| Applications | Thin films, plasma systems, X-ray/optical, semiconductor R&D |
Frequently Asked Questions — Custom Vacuum Chambers
We design and manufacture vacuum chambers for a wide range of scientific and industrial applications, including thin-film deposition (PVD, CVD, sputtering, evaporation), plasma processing, high-temperature furnace systems, optical and spectroscopy instruments, material treatment and annealing, and custom R&D prototype devices. Chamber geometries include cylindrical, rectangular, spherical, double-wall cooled chambers, glovebox interface designs, and ultra-high-vacuum (UHV) chambers with CF flanges.
Depending on materials, sealing structure, and pumping configuration, our chambers can achieve high vacuum levels of 10⁻⁵–10⁻⁷ Torr and ultra-high vacuum (UHV) down to 10⁻⁹ Torr with proper bakeout and pumping systems. All chambers are helium leak-tested prior to delivery.
Common fabrication materials include 304 stainless steel, 316L stainless steel for chemical-resistant applications, aluminum alloys for lightweight systems, and quartz or sapphire windows for optical access. Surface treatments such as electropolishing, bead blasting, or UHV cleaning are available.
Yes. We support electrical (HV/UHV), RF, thermocouple, gas, fluid, optical, and motion feedthroughs, as well as rotation and linear stages, water-cooling channels, and MFC-compatible gas ports. Each chamber is fully customized to match experimental requirements.
Yes. We provide complete engineering documentation including 2D drawings (PDF, DWG, DXF) and 3D CAD models (STEP, IGES, STL) for design review and system integration prior to fabrication.
Typical lead times range from 2–3 weeks for simple chambers and 4–8 weeks for complex UHV, multi-port, or large systems. Expedited production may be available upon request.
Click the “Request Quote” button and provide chamber dimensions, vacuum level requirements, port configuration, operating temperature, window or feedthrough needs, and drawings if available. Our engineering team typically responds within 24 hours.