光機械製作所 List of Products and Services

【Features】This product is a scribing process into the glass using filamentation with our company's ultrashort pulse laser. The cutting surface is taper-free and has a matte finish (Ra < 1μm). 【Material】Soda-lime glass Thickness: 0.3mm 【Processing Range】Circular cutting sizes: φ3mm, φ6mm, φ12mm

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【Features】This product utilizes ultra-short pulse lasers on SUS material pipes to create fine hole processing. It is capable of processing not only flat plates but also cylindrical shapes like pipes. If you have any questions about the processing, please feel free to contact us. 【Material】SUS304 pipe, outer diameter φ1.5mm 【Processing range】Single-wall through hole diameter φ0.5mm

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Among laser light, those that repeatedly blink at short intervals are called "pulse lasers." Among them, lasers with a short emission time (duration), particularly those in the pico (10^-12) second or femto (10^-15) second range, are referred to as ultra-short pulse lasers. The processing technology developed by later Nobel Prize-winning techniques In 2018, Dr. Gérard Mourou and Dr. Donna Strickland, who devised and demonstrated a method called CPA (Chirped Pulse Amplification), were awarded the Nobel Prize in Physics. This was 33 years after the first paper was published in 1985. While the details are omitted here, this technology significantly contributed to the development of short pulse and high intensity in pulse lasers. By the 1990s, ultra-short pulse laser processing began to be actively researched in research institutions around the world. From the 2010s, fiber laser-excited ultra-short pulse lasers became commercially available as industrial lasers. The laser oscillators we have introduced are these industrial picosecond and femtosecond lasers.

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【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 an aluminum foil film. Please try scanning it! Our fine laser processing minimizes thermal impact on thin materials with a thickness of 11μm, allowing for clean processing. Due to the significantly reduced physical damage and thermal effects, we achieved fine processing with minimal burrs.

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【Industry and Application】 Automotive-related industry Medical devices and medical parts-related industry Precision stainless steel parts for medical devices 【Material】 SUS304 (sus304) 【Dimensions】 Pipe outer diameter Φ1.5mm / Single wall through hole diameter Φ0.5mm 【Processing】 Ultrashort pulse laser processing 【Features】 This product has undergone hole processing on a pipe shape made of SUS304 (sus304) material. Our fine laser processing allows for machining not only on flat plates but also on cylindrical shapes like pipes. Since this product uses ultrashort pulse laser technology, physical damage and thermal effects are minimized, enabling fine processing with minimal burrs.

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【Microfabrication Company Logo Mark Ultra-Short Pulse Laser Thin Film Material】 【Material】 Aluminum foil Thickness: 11μm 【Industry and Applications】 Automotive industry Medical devices and medical parts industry Semiconductors and electronic components 【Material 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 susceptible to thermal effects, allowing for clean processing.

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【Laser Microprocessing Glass Marking Applied to the Medical Industry】 【Material】 Glass 【Industry and Applications】 Medical device and medical component-related industries 【Processing】 Ultrafast pulse laser processing 【Features】 This product performs fine marking on the glass surface with a Φ0.1mm spot using an ultrafast pulse laser. (Compliant with SEMI format) Since this product uses an ultrafast pulse laser, physical damage and thermal effects are significantly minimized, allowing for fine processing with minimal burrs. ◆ Fine processing of difficult-to-cut materials and complex shapes ◆ Automotive parts, medical device components, electronic components, semiconductor parts ◆ Prototype and development projects We take care of everything from processing to equipment setup. Hikari Machinery Manufacturing Co., Ltd. ■ HIKARI LASER LAB. 511 Room, Higashikashi Techno Plaza, 5-4-6 Kashiwanoha, Kashiwa City, Chiba Prefecture, 277-0882 Tel. 0471-70-4866 Fax. 0471-70-4866 E-mail: info@hikarikikai.co.jp HP: https://www.hikarikikai.co.jp/

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