We have compiled a list of manufacturers, distributors, product information, reference prices, and rankings for Microfabrication.
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Microfabrication Product List and Ranking from 64 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Dec 24, 2025~Jan 20, 2026
This ranking is based on the number of page views on our site.

Microfabrication Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Dec 24, 2025~Jan 20, 2026
This ranking is based on the number of page views on our site.

  1. 光機械製作所 HIKARI LASER LAB. Mie//Manufacturing and processing contract
  2. リプス・ワークス Tokyo//Manufacturing and processing contract
  3. ブル精密 (株)ブル精密 本社 Tochigi//Glass and clay products
  4. テクニスコ Tokyo//others
  5. 5 Y-MOLD Nagano//Manufacturing and processing contract
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Microfabrication Product ranking

Last Updated: Aggregation Period:Dec 24, 2025~Jan 20, 2026
This ranking is based on the number of page views on our site.

  1. Dimple processing examples リプス・ワークス
  2. [Glass Processing Examples] Precision Micro Machining ブル精密 (株)ブル精密 本社
  3. Laser microprocessing: Chip breaker (groove) processing 光機械製作所 HIKARI LASER LAB.
  4. 4 Cross-edge microfabrication [Glass through-hole wiring board (TGV)] テクニスコ
  5. 5 Laser microprocessing, glass processing, internal modification, marking. 光機械製作所 HIKARI LASER LAB.

Microfabrication Product List

121~127 item / All 127 items

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Fundamental Knowledge of Microfabrication: "Key Points of Microfabrication"

Fundamental Knowledge of Microfabrication: "Key Points of Microfabrication"

Microfabrication differs from conventional processing in that there are various considerations during design and processing.

Microfabrication differs from conventional machining in that there are various considerations during design and processing. In "Points of Microfabrication," it is noted that "the shapes are extremely small, making it impossible to visually confirm the shape or the progress of processing," "manual work cannot be performed on micro shapes," "while the objects being processed are extremely small, the tools are also extremely small, resulting in longer processing times," "specialized equipment is required for production," "specialized equipment is required for inspection," "because the cutting tools are extremely small, they may not withstand hard materials," and "if the material is soft, micro parts are weak against processing loads." Various countermeasures are provided for these characteristics of microfabrication. For more details, please contact us or refer to the catalog.

  • Technical and Reference Books

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Fundamental Knowledge of Microfabrication: Key Points for Researchers and Developers to Know about Microfabrication

Fundamental Knowledge of Microfabrication: Key Points for Researchers and Developers to Know about Microfabrication

We will introduce points that researchers and developers should pay attention to during development, design, and processing.

We will introduce points that researchers and developers who require micro-machined parts should pay attention to during development, design, and processing, such as 'confirming the equipment of the ordering source if even a part requires micro-machining,' 'designing to match commercially available tools as much as possible to reduce costs,' 'keeping corner radii as large as possible to reduce costs,' 'having fewer curved shapes to keep costs and delivery times down,' 'deburring of micro parts,' and 'when using expensive materials, the small size of the parts can lead to cost advantages.' For more details, please contact us or refer to the catalog.

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*Aluminum cutting processing: aluminum mirror tube outer cam multi-surface processing & aluminum precision micro machining*

*Aluminum cutting processing: aluminum mirror tube outer cam multi-surface processing & aluminum precision micro machining*

We accommodate fine holes and grooves, as well as high-precision machining for materials such as aluminum, stainless steel, rare metals, high-purity metals, and difficult-to-cut materials.

★Supported Materials Metals: Aluminum, stainless steel, copper, brass, titanium, tantalum, super Invar, iron, etc. Plastics: ABS, PC, PC glass, POM, PEEK, PP, PPS, PEEK, PMMA acrylic, etc. ■ The TEC Division of You Corporation, which started with mold-less processing of plastics, has gained long-standing appreciation from customers by creating complex shapes that cannot be clamped into free forms. For key parts that refine the performance of devices and products, we realize the creativity of our customers into tangible forms. ■ We have relationships with customers in various fields such as aerospace, optical components, and medical parts, and we can accommodate inquiries for small lots starting from just one piece. ★Sample of Mirror Tube Parts ○ Outer cam multi-surface machining, cylindrical machining with a combined lathe, thin-walled machining ○ Machining equipment: Combined lathe, 5-axis machining center ○ Material: Aluminum A5056 *For more details, please refer to the PDF materials or feel free to contact us. When inquiring, please reach out through the related link (inquiry form) below.

  • Processing Contract

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Micro-processing on the tip and side of ultra-fine, small-diameter pipes.

Micro-processing on the tip and side of ultra-fine, small-diameter pipes.

Micro-machining on the tip and side of "ultra-thin and small-diameter pipes" using wire electrical discharge machining and fine hole electrical discharge machining! The minimum order quantity is just "one."

Fine and small-diameter pipes used in medical devices With Namtechno! Precision machining is possible on the tips and sides using wire electrical discharge machining and fine hole electrical discharge machining! Issues such as workpieces bending, crushing, burrs appearing, and difficulties in machining due to vibrations, etc., "Drilling holes," "slitting," "creating steps," "adding grooves," "fine machining," "irregular shapes," "burr-free hole machining," "burr-free shape machining." Please consult Namtechno once! We can process and manufacture from one part or one hole, and test machining is also possible! The types of wire handled by Namtechno are: 0.02mm, 0.03mm, 0.05mm, 0.07mm, 0.1mm, 0.2mm, 0.25mm. We respond to a wide range of customer needs! *For more details, please contact us or refer to the related links.

  • Other molds
  • Processing Contract
  • Processing Jig

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Microfabrication of joint parts using die-sinking electrical discharge machining for robots.

Microfabrication of joint parts using die-sinking electrical discharge machining for robots.

Diagonal grooves for robot joint parts, for fine shape processing. Solving challenges with die-sinking electrical discharge machining!

In the robotics industry, there is a demand for miniaturization and high precision of joint components. Particularly in joint components that affect the robot's range of motion and durability, complex shapes and fine machining accuracy are crucial. Machining of diagonal grooves and intermediate grooves, which are difficult with wire-cut electrical discharge machining, can potentially degrade the robot's performance. Our partner's die-sinking electrical discharge machining technology addresses these challenges. 【Application Scenarios】 - Machining of diagonal grooves in robot joint components - Machining of grooves up to the intermediate section of robot joint components - Fine shape machining of small robot parts 【Benefits of Implementation】 - Realization of high-precision joint components - Improvement of robot performance - Supply of parts within a short delivery time

  • Other processing machines

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Microprocessing of connectors using die-sinking electrical discharge machining for electronic devices.

Microprocessing of connectors using die-sinking electrical discharge machining for electronic devices.

For angled grooves and complex-shaped connector machining. Solve challenges with die-sinking electrical discharge machining!

In the electronics industry, connectors are increasingly required to have more complex and intricate shapes due to the miniaturization and high performance of products. In particular, shapes that are difficult to handle with wire-cut electrical discharge machining, such as diagonal grooves and intermediate stop grooves, present high machining difficulty and can impact delivery times and costs. Our partner's die-sinking electrical discharge machining technology addresses these challenges. 【Application Scenarios】 - Machining of diagonal grooves inside connectors - Machining of complex three-dimensional shapes - Machining of fine grooves 【Benefits of Implementation】 - Achievement of high-precision shape machining - Supply of parts in a short delivery time - Potential for cost reduction

  • Other processing machines

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Microprocessing of decorative parts using die-sinking electrical discharge machining for watches.

Microprocessing of decorative parts using die-sinking electrical discharge machining for watches.

Oblique grooves and complex shapes. Achieving fine processing of watch decorative parts with die-sinking electrical discharge machining!

In the watch industry, the beauty and intricacy of decorative components greatly influence the value of the products. Particularly for highly designed decorative parts, fine shapes and complex processing are required. Delicate shapes such as angled grooves that are difficult to achieve with wire-cut electrical discharge machining, as well as grooves extending to the mid-section of components, are crucial elements that affect product quality. Our partners address these challenges using die-sinking electrical discharge machining technology. 【Application Scenes】 - Watch dials - Bezels - Cases - Buckles 【Benefits of Implementation】 - Realization of highly designed decorative components - Provision of high-quality products - Differentiation from competitors

  • Other processing machines

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