High-precision plating processing and surface treatment
High-precision plating processing and surface treatment
High-precision plating processing and surface treatment
Using photolithography technology with synchrotron light and UV, we enable the manufacturing of nano molds and nano parts for micromachines and MEMS through the LIGA process in nanotechnology, which involves fine precision plating. This is an introduction to high-precision plating and surface treatment from Taguchi Electric Industry. ■□■Features■□■ ■ Light such as synchrotron light and UV is irradiated onto a resist film on a metal substrate through a photomask of the desired structure. ■ The resist areas where light has passed are dissolved by etching solution, resulting in a resist structure. ■ Electric casting plating is performed on the obtained resist structure. ■ The remaining resist areas are etched away, creating a mold. ■ Shaping is performed using the mold, leading to mass production. ■ Ultimately, nano parts and nano molds for micromachines and MEMS are completed. ■ The photolithography technology allows for precise machining of micro parts such as nano-sized gears and terminals. ■ Three-dimensional structures are also possible through the use of synchrotron light. ■ Consistent processing from design to product commercialization is also available. For more functions and details, please download the catalog or contact us.
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Using photolithography technology with synchrotron light and UV, we enable the manufacturing of nano molds and nano components for micromachines and MEMS through the LIGA process in nanotechnology, which involves fine precision plating. This is an introduction to high-precision plating and surface treatment from Taguchi Electric Industry. ■□■Features■□■ ■ Light such as synchrotron light and UV is irradiated onto a resist film on a metal substrate through a photomask of the desired structure. ■ The resist areas where light has passed are dissolved by etching solution, resulting in a resist structure. ■ Electric casting plating is performed on the obtained resist structure. ■ The remaining resist areas are etched away, creating a mold. ■ Shaping is done using the mold, leading to mass production. ■ Ultimately, nano components and nano molds for use in micromachines and MEMS are completed. ■ With photolithography technology, micro parts such as nano-sized gears and terminals can be precisely processed. ■ Three-dimensional structures are also possible through the use of synchrotron light. ■ Consistent processing from design to product commercialization is also available. For more functions and details, please download the catalog or contact us.
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For more details, please download the catalog or contact us.
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We provide cutting-edge plating technology from Saga Prefecture in Kyushu. As experts in surface treatment, we offer high-precision plating and surface processing technologies across a wide range from low-tech to high-tech and from micro to nano. We have a vast selection of plating varieties, often referred to as the "department store of plating," including electroplating, electroless plating, composite plating, alloy plating, chemical plating, electroforming, functional plating, decorative plating, hard plating, anodizing, chemical conversion treatment, polishing, and more than 50 different types of plating and surface treatment, all available with high quality, high precision, and short delivery times. Equipped with advanced analytical instruments such as electron microscopes and X-ray analysis devices, we can quickly analyze the physical properties, plating characteristics, and corrosion resistance of plating films. In terms of quality control, we enhance the reliability of plating through numerical management using ICP emission spectrometry and electrophoresis analysis for the analysis of plating solutions and wastewater treatment. As a leader in the plating industry, we have quickly adapted to ISO 14001, ISO 9001, and RoHS regulations, and we actively engage in research and development of plating technologies related to nanotechnology, MEMS, micromachines, hydrogen energy, and fuel cells, providing environmentally friendly, high-quality, and high-precision plating.