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This guide provides a comprehensive overview of CF Flange Reducer Nipples, including their structure, technical specifications, and applications. It also includes 10 frequently asked questions to help you understand these critical vacuum system components.
CF Flange Reducer Nipples are high-performance vacuum fittings designed to connect pipes of different diameters in ultra-high vacuum (UHV) systems. Made from 304L/316L stainless steel, they offer exceptional vacuum compatibility and sealing performance, widely used in semiconductor manufacturing, scientific research, and aerospace applications.
CF Flange Reducer Nipples are essential vacuum components that combine ConFlat (CF) flange standards with diameter-reducing functionality. These precision-engineered fittings connect vacuum pipes or equipment of different sizes, ensuring leak-tight sealing and stable fluid transfer in ultra-high vacuum (UHV) environments. Their high-precision design makes them ideal for demanding applications in scientific research, semiconductor fabrication, and aerospace engineering.
Material: High-purity stainless steel (304L or 316L) for corrosion resistance
Key Features:
Ultra-flat sealing surface (≤0.5µm roughness)
Metal gasket sealing (Helicoflex or copper)
Compatible with 10⁻⁹ to 10⁻¹² mbar vacuum levels
Material: Matched stainless steel for thermal stability
Key Features:
Smooth conical transition between different pipe diameters
Customizable size combinations
Ultra-High Vacuum (UHV) Performance
Metal-to-Metal Sealing (Leak Rate <1×10⁻¹⁰ mbar·l/s)
Multiple Size Combinations
Thermal Expansion Compensation (Optional)
High Mechanical Strength (Up to 10 bar)
Corrosion-Resistant Stainless Steel
Easy Installation with Standard CF Flanges
Maintenance-Free Long Service Life
Particle accelerator vacuum chambers
Electron microscopes
Surface analysis systems (XPS, AES)
Nuclear fusion experiments
Vacuum deposition systems (PVD, CVD)
Plasma etchers
Molecular beam epitaxy (MBE)
Ion implantation machines
Satellite thermal vacuum testing
Spacecraft propulsion systems
Space telescope assembly
Rocket fuel system testing
Synchrotron radiation facilities
Vacuum metallurgy
Medical vacuum systems
High-energy physics experiments
| Model | Part No. | Flange A | Flange B | Standard Length (mm) | Custom Options |
| CF35/CF16 | 55007-35164 | CF35 | CF16 | 45 | Available |
| CF63/CF16 | 55007-63164 | CF63 | CF16 | 70 | Available |
| CF63/CF35 | 55007-63354 | CF63 | CF35 | 75 | Available |
| CF100/CF35 | 55007-100354 | CF100 | CF35 | 127 | Available |
| CF160/CF35 | 55007-160354 | CF160 | CF35 | 127 | Available |
| CF160/CF63 | 55007-160634 | CF160 | CF63 | 127 | Available |
| CF160/CF100 | 55007-1601004 | CF160 | CF100 | 127 | Available |
| CF200/CF35 | 55007-200354 | CF200 | CF35 | 127 | Available |
| CF200/CF63 | 55007-200634 | CF200 | CF63 | 127 | Available |
| CF200/CF100 | 55007-2001004 | CF200 | CF100 | 127 | Available |
| CF200/CF160 | 55007-2001604 | CF200 | CF160 | 127 | Available |
Notes:
Material: 304L / 316L stainless steel
Surface Finish: Ra ≤ 0.8 µm
Temperature Range: -270°C to +450°C
Custom Sizes & Lengths Available
1: What’s the difference between CF reducer nipples and standard reducers?
CF Flange Reducer Nipples are designed for UHV systems with metal sealing, while standard reducers use elastomer gaskets and are for low/medium vacuum.
2: How do I select the right CF reducer nipple?
Consider: 1) Pipe diameters, 2) Operating pressure, 3) Space constraints. Our engineers can assist with selection.
3: What’s the maximum temperature rating?
Standard models withstand -270°C to +450°C. Special designs available for extreme conditions.
4: Installation tips for vacuum system components?
1:Clean sealing surfaces, 2:Use torque wrenches, 3: Avoid misalignment, 4:Perform leak tests.
5: Do these require maintenance?
Metal-sealed CF flanges are virtually maintenance-free. Periodic bolt checks are recommended.
6: Can I get custom semiconductor equipment fittings?
Yes! We provide custom sizes, materials, and surface finishes for specialized applications.
7: Are they corrosion-resistant?
Standard 304L/316L offers excellent resistance. For harsh environments, electropolished or coated versions are available.
8: How is leak testing performed?
Helium mass spectrometry (best) or pressure decay tests. Our standard leak rate: <1×10⁻¹⁰ mbar·l/s.
9: Does length affect vacuum coating system performance?
Longer reducers help with thermal expansion but may increase flow resistance. We optimize designs for balance.
10: Quality assurance for aerospace vacuum testing parts?
We supply: 1) Material certs, 2) Dimensional reports, 3) Leak test data. ISO 9001 certified manufacturing.
CF Flange Reducer Nipples are critical for high-precision vacuum systems, offering reliable sealing, flexible sizing, and long-term durability. Whether for semiconductor tools, research labs, or space applications, these components ensure optimal vacuum performance.
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Email : mike@xiamenbest.com vacuum@xiamenbest.com WhatsApp : +8613959235484 Phone: +8613959235484 +8615880223078
