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Microfabrication Product List and Ranking from 63 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Nov 12, 2025~Dec 09, 2025
This ranking is based on the number of page views on our site.

Microfabrication Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Nov 12, 2025~Dec 09, 2025
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. Y-MOLD Nagano//Manufacturing and processing contract
  4. 4 ブル精密 (株)ブル精密 本社 Tochigi//Glass and clay products
  5. 5 東成イービー東北 Fukushima//Manufacturing and processing contract
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Microfabrication Product ranking

Last Updated: Aggregation Period:Nov 12, 2025~Dec 09, 2025
This ranking is based on the number of page views on our site.

  1. Ultra-fine processing using the latest technology with lasers! 東成イービー東北
  2. [Glass Processing Examples] Precision Micro Machining ブル精密 (株)ブル精密 本社
  3. Precision machining and micro machining ニッキトライシステム
  4. Realization of anisotropic structural colors using nanoperiodic structures (LIPSS) リプス・ワークス
  5. 4 Dimple processing examples リプス・ワークス

Microfabrication Product List

31~45 item / All 124 items

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Processing technology - Microfabrication

Processing technology - Microfabrication

Introducing medical device components that have undergone microfabrication.

At Gamagori Manufacturing Co., Ltd., we have been working on micro-precision machining (using drills and end mills with a diameter of 0.1mm or less) in collaboration with Toyohashi University of Technology and OSG Corporation for about seven years. In the fields of medical devices, communication equipment, and optical devices, as equipment becomes more advanced, there is a growing demand for high precision and miniaturization of parts, leading to an increasing need for micro-machining technology. In "micro-machining," we introduce a medical device component that has 81 holes with a diameter of 0.05mm drilled into one side of an 18-karat gold block with a side length of 1mm. 【Features】 - Capable of processing aluminum parts that are prone to distortion and handling high-difficulty machining - Continuously challenges new machining and work materials, enabling VA and VE proposals - Supports cutting-edge machining technology - Clear machining history - Available for consultations on difficult machining For more details, please contact us or download the catalog.

  • Processing Contract
  • Other electronic parts
  • Other optical parts

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Thin Film Microfabrication "Electrode Film Formation"

Thin Film Microfabrication "Electrode Film Formation"

Using sputtering technology, we form high-purity, high-precision electrode films! Introducing our thin film microfabrication.

We would like to introduce Shinco's thin film microfabrication technology for 'electrode deposition.' Using sputtering technology, we form high-purity, high-precision electrode films. Magnetic films can be made from Fe/Ta-based materials and high-purity Fe (permalloy), while electrode formation films can be made from Au, Cr, and Ni/Cr. Please inquire about target purity and composition. 【Types of thin films that can be formed using sputtering technology】 ■ Magnetic films: Fe/Ta-based, high-purity Fe (permalloy) ■ Electrode formation films: Au, Cr, Ni/Cr ■ Insulating films: SiO2, Al2O3 *For more details, please refer to the PDF document or feel free to contact us.

  • Processing Contract

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Thin Film Microfabrication "MEMS Technology"

Thin Film Microfabrication "MEMS Technology"

Silicon dioxide (SiO2) films (thickness 0.5 to 5.0 µm) processed into rectangular shapes! Introducing our thin film microfabrication.

We would like to introduce Shinco's thin film microfabrication "MEMS technology." SiO2 thin films (thickness 0.5 to 5.0 µm) are processed into rectangular shapes. We will assist you with shape design. Please feel free to inquire about line width values and shape aspect ratios. *For more details, please refer to the PDF materials or feel free to contact us.

  • Processing Contract

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[Processing Introduction] Fine processing technology of 0.02mm (20μm) (Electrical Discharge Machining)

[Processing Introduction] Fine processing technology of 0.02mm (20μm) (Electrical Discharge Machining)

Electrical discharge machining that enables extremely small diameters and slits that cannot be achieved with cutting machines!

"Electrical discharge machining" allows for fine processing that cannot be achieved with cutting machines. This introduction to processing technology features the character "0.02" in the photo. It is not visible to the naked eye unless light is shone from below the workpiece. Holes measuring "0.02mm" have been processed in "75 locations" with precision, making the characters stand out! Furthermore, the surrounding lines are processed with a "0.02mm" wire electrical discharge machining, achieving a slit width of "0.025mm"! Fine processing that cannot be done with cutting machines is possible. We perform processing in a wide range of fields, including medical devices (such as the tips of endoscopes), electronic components for mobile phones, semiconductor parts, and automotive components. 【Features】 ■ Capable of ultra-small diameter processing ■ Capable of ultra-small slit processing ■ Compatible with difficult-to-cut materials ■ Minimum hole diameter φ0.02mm ■ Minimum wire diameter φ0.02mm *For more details, please refer to the catalog. Feel free to contact us with any inquiries.

  • Other molds
  • Processing Contract
  • Processing Jig

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Ultra-fine processing using the latest technology with lasers!

Ultra-fine processing using the latest technology with lasers!

Contract processing! We respond to various processing requests such as ultra-fine hole drilling, groove processing, thin film peeling, and fine marking.

■Micromachining down to several tens of microns → High-quality processing is possible with state-of-the-art machining equipment ■Non-thermal processing is possible → Processing without thermal effects, as the irradiation stops before heat spreads → No molten parts, so there are no burrs. Edges are finished sharply ■Compatible with various materials → Broad compatibility with aluminum, copper alloys, various metals, plastics, ceramics, glass, and more For processing examples and details, please visit our website! https://www.ebtohoku.co.jp/result/laser/

  • Processing Contract

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We have many achievements in precision prototype sheet metal processing for thin small items! High-precision ultra-fine processing.

We have many achievements in precision prototype sheet metal processing for thin small items! High-precision ultra-fine processing.

Leave ultra-fine prototype processing to us! We can handle thin sheets of 0.02mm and small items of 1mm square! Plus, we offer short delivery times! We provide high-difficulty processed products.

Kuroda Seiki is a specialized company for prototype precision sheet metal and press parts. We can provide prototype parts ranging from ultra-fine 1mm to 300mm with high precision and short delivery times. We have a wide range of delivery records in various fields, from terminals to aerospace components. You can also rely on us for prototype parts for recent trends such as EV vehicles and rapid chargers. Based on our prototyping know-how, we also offer cost reduction proposals. Please feel free to contact us when you need our services. 【Prototype Examples】 Terminals, connectors, bus bars, spring parts, cases, brackets, motor cores, and precision parts for automotive, optical medical, electrical, OA equipment, and aerospace applications. *For more details, please refer to the PDF materials or feel free to contact us.

  • Other machine elements

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Ultra-precision microfabrication (imprint technology)

Ultra-precision microfabrication (imprint technology)

We have imprint technology that forms fine structures on glass surfaces.

Using ultra-high precision molds, it is possible to directly form nano- and micro-order resin microstructures on various glass substrates with high accuracy. Additionally, by adopting original optical resins, it is possible to meet various optical characteristics and reliability standards.

  • Glass

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Microfabrication

Microfabrication

We process small parts of a few millimeters in size with micron (μ) precision to create precise components.

Microfabrication utilizes advanced processing techniques such as high-precision cutting, hole machining, wire cutting, and electrical discharge machining to manufacture metal micro-components according to your specifications. With years of cultivated expertise, we can accommodate various shapes, including ultra-thin profiles and tiny hole shapes, down to approximately 0.05mm. Additionally, we offer one-stop solutions for surface treatment and plating of the manufactured parts. The produced components are so small that their shapes cannot be distinguished by the naked eye, but we ensure quality by measuring them using a measuring microscope. We have extensive experience in manufacturing precision parts for medical applications and precise mechanical components, so please feel free to contact us if you have any needs for micro or precision parts.

  • Contract manufacturing

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Laser microfabrication: Glass hole processing, fine holes

Laser microfabrication: Glass hole processing, fine holes

Laser shape processing: Trimming long holes in glass (quartz).

Material: Glass (Quartz) / Thickness 0.15mm A long hole with a width of 0.5mm has been trimmed into the glass thin plate. It is possible to shape fine holes. Fine processing of glass, such as cutting and trimming of thin and fragile glass plates, is possible.

  • Glass
  • Processing Contract
  • Other semiconductors

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Laser microfabrication: Titanium hexagonal trimming processing with fine holes.

Laser microfabrication: Titanium hexagonal trimming processing with fine holes.

Laser shape processing: Trimming hexagons from difficult-to-machine titanium.

We have trimmed hexagonal holes into a thin sheet of highly biocompatible titanium. It is possible to shape fine holes. With a narrow remaining width, we can achieve fine processing with minimal burrs even for complex shapes. Material: Titanium Thickness: 0.2mm Size: Opening 200μm Shape: Hexagonal hole

  • Processing Contract
  • alloy
  • Lithium-ion battery

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Microfabrication, nickel, hexagonal, trimming process, micro holes.

Microfabrication, nickel, hexagonal, trimming process, micro holes.

Laser fine shape processing: Nickel hexagonal trimming processing

Trimming processing was performed on nickel thin plates with a short-pulse laser, creating hexagonal holes. It is possible to shape fine holes. With non-thermal processing using a short-pulse laser, even difficult-to-cut materials can be finely processed with minimal burrs, even for complex shapes and narrow residual widths. While conventional machining imposes significant stress on the workpiece, leading to distortion and thermal effects that make it difficult to work with certain materials, short-pulse lasers can handle these challenges. Material: Nickel / Thickness: 200μm Hexagonal hole: Opening 200μm

  • Processing Contract
  • Evaporation Equipment
  • Engine parts

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Laser microprocessing, glass processing, internal modification, marking.

Laser microprocessing, glass processing, internal modification, marking.

Laser microfabrication: Achieving internal modification of glass through processing to enable marking within the glass.

【Laser Micromachining Glass Processing Internal Modification Marking】 【Material】 Glass 【Industry/Application】 Medical parts-related industry 【Processing】 Ultrafast pulse laser processing 【Features】 This product underwent internal modification processing without damaging the glass surface using an ultrafast pulse laser. Since marking was performed inside the glass, it will not wear away. By using an ultrafast pulse laser, physical damage and thermal effects are significantly minimized, allowing for fine processing with minimal burrs. ◆ Micromachining of difficult-to-cut materials and complex shapes ◆ Automotive parts, medical device parts, electronic components, semiconductor parts ◆ Prototype and development projects We take care of everything from processing to equipment setup. Hikari Kikai Seisakusho Co., Ltd. ■ HIKARI LASER LAB. 5-4-6 Kashiwanoha, Kashiwa City, Chiba Prefecture 277-0882, Room 511, Tokatsu Techno Plaza Tel. 0471-70-4866 Fax. 0471-70-4866 E-mail: info@hikarikikai.co.jp HP: https://www.hikarikikai.co.jp/

  • Processing Contract
  • Laser marker
  • Glass

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Laser micromachining, fine trimming processing, copper, Cu, fine holes.

Laser micromachining, fine trimming processing, copper, Cu, fine holes.

Laser microfabrication: Ultra-fine long holes were trimmed into copper.

【Laser Micromachining Micro Trimming Processing Copper Cu Micro Holes】 【Material】 Copper (Cu) 【Material Dimensions】 Thickness 0.1mm (100μm) 【Processing】 Ultrashort Pulse Laser Processing 【Features】 This product achieves micro trimming processing on 0.1mm thick copper. The residual allowance between the long holes is 50μm, which is very fine. Copper is a material that is easily affected by heat, but by selecting the wavelength of the ultrashort pulse laser, it is possible to process fine shapes with reduced thermal effects. Physical damage and thermal effects are significantly minimized, resulting in fine processing with minimal burrs. ◆ Fine processing of difficult-to-cut materials and complex shapes ◆ Automotive parts, medical device parts, electronic components, semiconductor parts ◆ Prototype and development projects Leave it to us. We handle everything from processing to equipment setup. Hikari Machinery Manufacturing Co., Ltd. ■ HIKARI LASER LAB. 〒277-0882 Chiba Prefecture, Kashiwa City, Kashiwa-no-ha 5-4-6, Room 511, Tokatsu Techno Plaza Tel. 0471-70-4866 Fax. 0471-70-4866 E-mail: info@hikarikikai.co.jp HP: https://www.hik

  • Processing Contract
  • Other semiconductor manufacturing equipment
  • Non-ferrous metals

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Micro holes CFRP composite material micro machining

Micro holes CFRP composite material micro machining

Laser microprocessing: fine holes, CFRP, composite materials, microprocessing

【Micro Holes CFRP Composite Material Micro Machining】 【Material】 Composite Material CFRP 【Dimensions】 Hole Diameter 0.1mm Thickness 0.1mm 【Processing】 Ultra Short Pulse Laser Processing 【Features】 Drilling processing is performed on CFRP material. In mechanical processing, issues such as fiber entanglement and fiber breakage due to tool engagement can occur, but using a non-contact laser allows for processing without compromising functionality. The use of ultra-short pulse lasers minimizes physical damage and thermal effects, enabling fine machining with minimal burrs. ◆ Fine machining of difficult-to-cut materials and complex shapes ◆ Automotive parts, medical device components, electronic components, semiconductor parts ◆ Prototype and development projects We handle everything from processing to equipment setup. Hikari Machinery Manufacturing Co., Ltd. ■ HIKARI LASER LAB. 〒277-0882 Chiba Prefecture, Kashiwa City, Kashiwa-no-ha 5-4-6, Room 511, Tokatsu Techno Plaza Tel. 0471-70-4866 Fax. 0471-70-4866 E-mail: info@hikarikikai.co.jp HP: https://www.hikarikikai.co.jp/

  • Processing Contract
  • Contract manufacturing
  • Brake parts

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Microfabrication Company Logo Ultra-short Pulse Laser Thin Film Material

Microfabrication Company Logo Ultra-short Pulse Laser Thin Film Material

Marking on aluminum thin films using ultrashort pulse lasers.

【Microfabrication Company Logo Mark Ultra-Short Pulse Laser Thin Film Material】 【Material】 Aluminum foil Thickness: 11μm 【Industry and Application】 Automotive industry Medical devices and medical parts industry Semiconductors and electronic components 【Dimensions】 Processing size: 3mm x 3mm square range 【Processing】 Ultra-short pulse laser processing 【Features】 This product features a company logo mark laser processed onto aluminum thin film material. Due to its thickness of 11μm, it is less likely to be affected by heat, allowing for clean processing.

  • Other electronic parts

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