Last Updated: Aggregation Period:Sep 24, 2025~Oct 21, 2025
This ranking is based on the number of page views on our site.
Last Updated: Aggregation Period:Sep 24, 2025~Oct 21, 2025
This ranking is based on the number of page views on our site.
Last Updated: Aggregation Period:Sep 24, 2025~Oct 21, 2025
This ranking is based on the number of page views on our site.
106~119 item / All 119 items
表面マーキング・内部改質加工(QRコード) 超短パルスレーザー
【QRコード 超短パルスレーザー ガラス表面・内部改質加工】 【材質】 ソーダライム(青板ガラス) 厚み:1.3mm 【業界・使用用途】 自動車関連業界 医療機器・医療部品関連業界 半導体微細部品 【材寸】 加工サイズ:上段 表面マーキング 下段:内部改質 【加工】 超短パルスレーザー加工 【特徴】 こちらの製品は、超短パルスレーザーでガラス表面を傷つけることなく、内部改質加工を 行いました。光の当たり方により虹色に見えます。 上段の白く見えるのがガラス表面にマーキング、下段の虹色に見えるのがガラス内部に マーキングしています。
ガラス材への角窓くり抜き加工
材質】 合成石英ガラス 厚み:1mm 【業界・使用用途】 自動車関連業界 医療機器・医療部品関連業界 半導体・電子部品 【材寸】 加工サイズ:角窓寸法 3mm角~0.25mm角 【加工】 超短パルスレーザー+ウェットエッチング 【特徴】 こちらの製品は、合成石英ガラスを角形状にくり抜きました。 超短パルスレーザーによるレーザー改質とウェットエッチングを組合せる事で角形状のくり抜きも可能となります。
Realization of fine cutting processing.
【Material and Processing】 SUS304 Thickness: 0.05mm Cutting Width: 0.1mm Cut-out Processing 【Features】 This product has undergone fine shape processing of thin film materials using ultra-short pulse laser. It is expected to be processed for miniaturization of parts and for incorporation into stacked products.
We processed a QR code onto a thin aluminum foil using fine laser machining.
【Industry and Application】 Automotive-related industry Medical devices and medical parts-related industry Precision stainless steel parts for medical devices 【Material】 Aluminum foil, thickness: 11μm 【Dimensions】 Processing size: 3mm x 3mm square range 【Processing】 Ultrashort pulse laser processing 【Features】 This product has a QR code laser-processed onto aluminum foil material. Please try scanning it! Our fine laser processing minimizes thermal impact on thin materials with a thickness of 11μm, allowing for clean processing. Physical damage and thermal effects are significantly reduced, enabling fine processing with minimal burrs.
![[Case Study: Manufacturing Subsidy] High-Precision Microfabrication with Low Cost and Short Delivery Time](https://image.mono.ipros.com/public/product/image/330/2000734236/IPROS04392436153815452230.png?w=280&h=280)
We have solved the challenges of high-precision machining of high-hardness difficult-to-cut materials, improving productivity, shortening delivery times, and increasing yield rates!
We would like to introduce a case where the manufacturing subsidy was utilized to solve challenges in the metal product processing industry. A small and medium-sized manufacturing company in Tokyo has been producing molds for badges for many years. Recently, they have faced the crisis of losing market share to low-cost overseas molds entering the Japanese badge mold market. To prevent such a situation, they have made management efforts and continued their business. Currently, they are struggling with unstable quality, low productivity, inability to respond to short delivery times, difficulty in reducing costs, and challenges in handling sudden orders. To address these issues, they utilized the manufacturing subsidy to establish high-precision micro-machining technology through the introduction of a new CNC machine. [Overview] - Industry: Metal product processing - Background: Strengthening competitiveness against low-cost products - Solution: Establishment of high-precision micro-machining technology through the introduction of a new CNC machine *For more details, please refer to the related links or feel free to contact us.
Seiko Precision is challenging itself with nano-level precision machining.
Seiko Precision Co., Ltd. has introduced equipment capable of spindle speeds up to 80,000 RPM, while many machines in the parts processing industry typically have spindle speeds of up to 20,000 RPM. We also handle a wide range of items not listed. We specialize in small diameter hole processing in aluminum materials (φ0.3 to φ1). For more details, please download our catalog or contact us.
Achieving stable high quality! Introduction of various metal processing examples using microfabrication technology.
At Yoneyama Mold Manufacturing, we pursue a dimensional accuracy of ±1μm by utilizing the machining center MEGAIII (processing accuracy of 1μm) and the shape electric discharge machine MA2000 (processing accuracy of 2μm). We would like to introduce some challenging metal processing examples that utilize cutting and wire electric discharge machining. 【Metal Processing Examples】 ○ Fine mirror surface cutting ○ Fine hole processing ○ Precision mold components ○ Other fine processing For more details, please contact us or download the catalog.
[Case Study Collection Available!] Precision machining with a dimensional accuracy of ±1μm! Leave the processing of 'microchannels' to us!
At Yoneyama Mold Manufacturing, we utilize ultra-high precision micro-machining machines such as the Android and the ultra-precision shape electric discharge machine AP3L to pursue dimensional accuracy of ±1μm, performing highly challenging metal processing. 【Micro Channel Mirror Surface Cutting (Ra0.005μm)】 ■ Material: HPM38, HRC52 ■ Tool Used: Φ0.5×0.05 Radius End Mill (Special Tool) ■ Base Material: Iron ■ Lot Size: 1 to 100 pieces ■ Precision: 1/100 to 1/1000mm ■ Industry: Automotive (Prototype), Consumer Electronics, Semiconductors ★ Additionally, a collection of various micro-processing case studies titled "Micro Machining Technology Case Studies" can be viewed via the "PDF Download" link below.
The most problematic aspect of microfabrication is that the processing conditions cannot be visually confirmed with the naked eye.
The biggest issue in microfabrication is that the processing conditions cannot be visually confirmed with the naked eye. The parts and shapes being processed are at a microscopic size, making it impossible to judge the cutting load from the sound of cutting or the way chips are produced. Similarly, if a tool breaks during processing, it is difficult to assess the situation due to the extremely small size of the tool. Furthermore, when dealing with micro components, the dimensional tolerances become nearly zero, and even a few microns of error can significantly affect the quality of the product. Naturally, finishing work by hand and measuring during the process are not possible, so the quality of the product cannot be determined until processing is complete. In other words, compared to precision machining where processing conditions can be visualized, microfabrication places an even greater demand on the experience and imagination of the technician, and the precision of the machines and temperature control required to achieve these results becomes even more stringent. For more details, please contact us or refer to our catalog.
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.
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.
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.
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.
