Brief Introduction of Metallization Ceramics
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Brief Introduction of Metallization Ceramics
Advanced ceramics are widely used in electronics and engineering applications for their chemical and mechanical properties. Compared to metals, they are stronger in compression, especially at higher temperatures. Advanced ceramics have a good thermal stability (i.e. a low coefficient of thermal expansion) and good thermal and electrical resistance. They are also hard, and have excellent dimensional stability.
As a result, the list of applications for advanced ceramics is including: aerospace engine blades, rings and valve components, industrial pump bearings, cutting tools and die parts, medical instruments, and wide uses in the electronics industry as a substrate and in specialized vacuum components.
Metallization ceramics is a famous coating technology in advanced ceramics, they are commonly used in many applications, for example in power electronics components placed under extreme load, electrical drive engineering and electrical engineering as well as in electronic components for computer technology.
Key Features
Key Benefits
Metallization Capabilities
Typical Applications
Brief Introduction of Metallization Ceramics
Advanced ceramics are widely used in electronics and engineering applications for their chemical and mechanical properties. Compared to metals, they are stronger in compression, especially at higher temperatures. Advanced ceramics have a good thermal stability (i.e. a low coefficient of thermal expansion) and good thermal and electrical resistance. They are also hard, and have excellent dimensional stability.
As a result, the list of applications for advanced ceramics is including: aerospace engine blades, rings and valve components, industrial pump bearings, cutting tools and die parts, medical instruments, and wide uses in the electronics industry as a substrate and in specialized vacuum components.
Metallization ceramics is a famous coating technology in advanced ceramics, they are commonly used in many applications, for example in power electronics components placed under extreme load, electrical drive engineering and electrical engineering as well as in electronic components for computer technology.
Key Features
- Standard Moly-Manganese coatings of .001”+/-.0005” offers a uniform coat and optimum peel strength
- Standard Nickel plating thickness of .0001”/.0004” creates ideal surface for vacuum tight braze seals
Key Benefits
- Superior bare ceramic and metallization quality
- Vertically integrated ceramic processing with traceability from the bare ceramic powder through metallization and Nickel plating
- Application engineering support
- Specialization in prototype to medium volume with the ability to seamlessly upscale to high volume production if required.
Metallization Capabilities
- Face metallization of large and small parts
- Pattern screening of highly intricate details
- Complete OD metallization
- Complete ID metallization of even the smallest thru holes
- Counterbore metallization
- ID/OD striping to tight tolerance band widths
- Electrolytic and Electroless Nickel plating processes
Typical Applications
- RF windows
- Vacuum tubes
- Laser tubes
- X-ray Tubes
- Feedthrus
- Headers
- High-power receptacles
- Insulating discs
- Insulator rings and cylinders
- Precipitator products
- Power switches
- Traveling wave tubes
- Power grid tubes
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