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Micro shape processing - List of Manufacturers, Suppliers, Companies and Products

Micro shape processing Product List

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Miniature shape processing for downsizing LiDAR and ToF technologies【Microfabrication】

Miniature shape processing for downsizing LiDAR and ToF technologies【Microfabrication】

Utilizing know-how, we enable the speedy provision of prototypes and contribute to short delivery times!

Our company's "microfabrication" technology meets the increasingly sophisticated needs of our customers. It is well-suited for applications such as two-wavelength and three-wavelength pickups, communication devices, digital cameras, and solar cells. By leveraging our optical thin film processing technology and know-how, we enable the speedy provision of prototypes and contribute to short delivery times. Please feel free to contact us when you need assistance. [Overview] ■ Responding to the increasingly sophisticated needs of our customers ■ Two-wavelength and three-wavelength pickups, communication devices, digital cameras, solar cells, etc. *For more details, please refer to the PDF materials or feel free to contact us.

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Micro-shape processing by die-sinking electrical discharge machining for aerospace turbines.

Micro-shape processing by die-sinking electrical discharge machining for aerospace turbines.

For precision machining of turbine components. Achieving complex shapes with die-sinking electrical discharge machining.

In the aerospace industry, particularly in the turbine sector, high precision and reliability are required. The manufacturing of parts with complex three-dimensional shapes, such as turbine blades and nozzles, demands advanced technical skills. The processing of fine shapes, such as angled grooves and grooves extending to intermediate sections, which are difficult to achieve with wire-cut electrical discharge machining, significantly impacts turbine performance. Our partners utilize die-sinking electrical discharge machining technology to address these challenges. Through high-precision processing with dedicated electrodes, we contribute to improving turbine efficiency. 【Application Scenarios】 - Processing of angled grooves in turbine blades - Processing of fine shapes in nozzle components - Processing of other turbine parts with complex three-dimensional shapes 【Benefits of Implementation】 - Improved turbine performance through high-precision part manufacturing - Timely supply of parts - Increased design flexibility

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Micro-shape processing by die-sinking electrical discharge machining for optical lens molds.

Micro-shape processing by die-sinking electrical discharge machining for optical lens molds.

Diagonal grooves in lens molds and fine shape processing solved by electrical discharge machining!

In the optical lens mold industry, precise shape processing of molds that influence lens performance is required. In particular, angled grooves and complex three-dimensional shapes greatly affect the quality of the mold and the accuracy of the lens. Fine shapes that are difficult to achieve with wire-cut electrical discharge machining can be realized with high precision using die-sinking electrical discharge machining. The technology of our partners enhances the design freedom of molds and supports the manufacturing of high-quality lenses. 【Application Scenarios】 - Processing of angled grooves in lens molds - Groove processing up to the intermediate part of lens molds - Processing of complex three-dimensional shapes 【Benefits of Implementation】 - High precision in mold processing - Improvement in lens performance - Mold production with short lead times

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Micro-shape processing using die-sinking electrical discharge machining for automotive engines

Micro-shape processing using die-sinking electrical discharge machining for automotive engines

For precision machining of engine parts. Achieving complex shapes with die-sinking electrical discharge machining.

In the field of automotive engines, high precision and durability are required. In particular, components with complex shapes inside the engine are crucial elements that affect performance. The processing of fine shapes, such as diagonal grooves and interrupted grooves, which are difficult to achieve with wire-cut electrical discharge machining, poses challenges for improving engine performance. Our partner's die-sinking electrical discharge machining technology addresses these challenges and enables the manufacturing of high-precision engine components. [Application Scenarios] - Machining of diagonal grooves in engine components - Machining of complex three-dimensional shapes - Machining of components requiring high precision [Effects of Implementation] - Improvement of engine performance - Enhanced durability of components - Provision of high-quality products

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Micro-shape processing by die-sinking electrical discharge machining for semiconductors.

Micro-shape processing by die-sinking electrical discharge machining for semiconductors.

We will solve the challenges of microfabrication in semiconductor manufacturing.

In the semiconductor industry, miniaturization and high performance of products make fine processing of components essential. In particular, there is a demand for processing complex three-dimensional shapes, angled grooves, and grooves extending to intermediate sections, which are difficult to handle with wire-cut electrical discharge machining. The precision of these processes significantly affects product performance, making high technical capability crucial. Our partner's die-sinking electrical discharge machining technology addresses these challenges and provides high-quality components. 【Application Scenarios】 - Mold components in semiconductor manufacturing - Fine processing of electronic components - Manufacturing of precision machinery parts 【Benefits of Implementation】 - Achievement of high-precision fine shapes - Supply of components in a short delivery time - Improvement in product quality

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