Advanced MEMS technology supports everything from prototype to mass production: 'Precision Electroforming'
Capable of producing thick films of 200μm or more, achieving a high hardness nickel coating.
Precision electroforming technology is one of the methods for manufacturing micro-mechanical components that are part of MEMS (Micro Electro Mechanical Systems). It accurately forms high-performance plating films on fine patterns created by photolithography technology. Our precision electroforming technology, unlike etching methods, can faithfully transfer high aspect ratio fine patterns in negative shapes and produce films of specified thickness quickly and without defects. We can prototype TEG patterns of trenches and holes with L/S=50/50 to 200/600μm, up to 4" wafer sizes. 【Main Features】 ■ Capable of producing thick films over 200μm ■ Achieves high hardness nickel plating (>600Hv) ■ Electroformed films with low residual stress due to low electrodeposition stress ■ Dense electroformed films without defects such as voids For more details, please contact us or download the catalog. E-mail: ogic@ogic.ne.jp Phone number: 096-352-4450
Inquire About This Product
basic information
【Performance】 ○ Aspect ratio of 2.5 or higher ○ Electrodeposition film thickness of 200μm or more possible ○ Ni electrodeposited coating with hardness of 600Hv or higher ○ Low electrodeposition stress ● For more details, please contact us or download the catalog.
Price range
Delivery Time
Applications/Examples of results
【Usage】 ○ As precision electroforming technology. → Suitable for MEMS components, meshes, various sensors, precision molds, etc. ● For more details, please contact us.
catalog(1)
Download All Catalogs
Company information
We believe that our mission is to evolve and propose surface treatment technologies, which are foundational technologies for manufacturing, have a history dating back to ancient times, and have evolved to support cutting-edge industries of each era, but are now becoming skills that not everyone can perform. This evolution begins with communication with our customers. We learn about the materials our customers use, understand the required functional characteristics, and study the environment in which the finished products will be used and the roles they are expected to fulfill. If necessary, we collaborate with universities and public research institutions. We then provide the optimal surface treatment technology.