Custom N6 Nickel Stamping Parts With Surface Roughness Up To RA0.1
Material:
N6/Nickel-200/Nicke-l99/JIS-NW2200/EN 2.40601
Dimensions: custom
Material thickness: 0.8-4.0mm
Process: Stamping
Product technical requirements:
The surface roughness reaches RA0.1
Application: Electron gun components / shielding field components
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Product Description:
Custom High-Precision Nickel Stamping Parts (RA 0.1 Surface Finish)
Engineered for demanding electron gun applications, our nickel stamping parts deliver unmatched precision and surface quality. With a mirror-like RA 0.1 surface roughness, these components minimize electron beam distortion and maximize emission efficiency in high-vacuum environments.
Specifications:
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Material: Premium-grade nickel (99.9%+ purity), ensuring thermal stability, electrical conductivity, and resistance to oxidation.
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Surface Finish: Precision-machined and polished to RA ≤0.1 μm, critical for reducing surface irregularities in electron optics.
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Tolerances: Micron-level accuracy (±0.005 mm) for seamless integration into complex electron gun assemblies.
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Applications: Electron guns in particle accelerators, SEM/TEM systems, X-ray generators, and industrial cathode-ray devices.
Why Choose Us?
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Custom Solutions: Fully adaptable to unique geometries, thicknesses, and functional requirements.
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Quality Assurance: Rigorous metrology testing (CMM, profilometry) to guarantee compliance with aerospace-grade standards.
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Performance-Driven: Optimized for ultra-high vacuum (UHV) compatibility and long-term operational reliability.
Ideal for R&D labs, OEMs, and advanced manufacturing sectors requiring mission-critical electron beam components.
FAQ
You can tell us your needs (such as specifications, quantities, materials, drawings, etc.) by email(info@prekovar.com), phone or by submitting the form on our website.
With over 10 years of specialized focus on Kovar/alloy processing, we master the unique challenges of this low-expansion material. Our advanced stamping techniques ensure micron-level accuracy, ideal for critical applications in electronics, aerospace, and hermetic sealing components.
