Microhole processing, micron level, material SUS304, stainless steel microprocessing.
Cutting of stainless steel using ultrashort pulse laser processing.
【Material】 SUS304 (sus304) 【Industry and Application】 Automotive industry Medical devices and medical parts industry Precision stainless steel micro parts for medical devices 【Dimensions】 Thickness 0.5mm (500μm) 【Processing】 Ultrashort pulse laser processing 【Features】 This product is a precision part made from SUS304 (sus304) stainless steel, processed through fine cutting. The material is cut from 0.5mm thick stainless steel with a cutting width of 0.1mm (100μm). For size comparison, a hair is placed above it. This product utilizes ultrashort pulse laser technology, which significantly reduces physical damage and thermal effects, allowing for fine processing with minimal burrs.
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basic information
◆Precision machining of difficult-to-cut materials and complex shapes ◆Automotive parts, medical device parts, electronic components, semiconductor components ◆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-chome 4-6, Higashi-Katsushika Techno Plaza Room 511 Tel. 0471-70-4866 Fax. 0471-70-4866 E-mail: info@hikarikikai.co.jp HP: https://www.hikarikikai.co.jp/
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Automotive-related industry Medical devices and medical parts-related industry Precision stainless steel components for medical devices
Company information
At "HIKARI LASER LAB.", we offer services for precision processing using ultra-short pulse lasers, including "contract processing," "development agency," and "marking." Precision processing and surface modification/internal marking using picosecond and femtosecond lasers are utilized in various industrial equipment across sectors such as the medical industry, automotive industry, and semiconductor industry. Recently, there has been a demand for surface modification not only for shape processing like fine hole drilling, cutting, trimming, and groove processing but also for enhancing functionalities such as water repellency, release properties, friction reduction, and improved sliding properties. Additionally, there is a demand for marking inside glass from the medical industry. Laser processing is possible on a wide range of materials, including transparent materials like glass and diamonds, difficult-to-cut materials like titanium, and resins, CFRP, ceramics, and polyimides. Regarding surface modification, we have received requests to improve the release properties of molds. We will continue to "challenge" ourselves in precision processing and surface modification using ultra-short pulse lasers to meet our customers' needs!
