Purchase of micro-machining femtosecundum laser system (Q3913967): Difference between revisions
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The content of the project is the purchase of 1 new production device, 1 micro-machining femtosecundous laser system. The device is suitable for producing pulses between 200 fs -10 ps. Very short pulses have a very high pulse power, approx. 700 MW. The beam conductor and radiation diagnostic components of the system ensure the adjustment, control, measurement and documentation of the exact parameters of the pulses. High impulse energy/approx.80J/allows accurate implementation of high-energy welding technologies. The micro-machining system designed to be procured is a system for performing high precision (micro) machining, built with femtosekund laser, radiation-protected design, closed working space. The workpiece can be moved with X-Y axis, the machining head moves in Z direction. The equipment is equipped with optical elements for controlling laser pulses, its beam guide unit is suitable for adjusting and measuring radiation distribution, polarisation, pulse packet. The technical parameters are set out in detail in the enclosed quotation. The latest generation of lasers for material machining are ultra-short pulsed/USP/light sources. Pico- and femtosecundum lasers allow cold material processing. The most promising new technology in high-precision cutting, material structuring and drilling. Cold machining means intervention without thermal damage and provides previously impossible new applications. Femtosecundum material machining can be applied in electronics industry, micro and medical technology and other industrial fields. The acquisition of the equipment expands Lasram’s laser material machining possibilities, represents new applications in the field of micro-machining, new cooperation areas open and improves the cost-effectiveness of LASRAM medical laser production and, last but not least, helps to maintain the competitiveness of domestic supplier SMEs through the provision of wage and technological assistance by LASRAM. (English) | |||||||||||||||
| Property / summary: The content of the project is the purchase of 1 new production device, 1 micro-machining femtosecundous laser system. The device is suitable for producing pulses between 200 fs -10 ps. Very short pulses have a very high pulse power, approx. 700 MW. The beam conductor and radiation diagnostic components of the system ensure the adjustment, control, measurement and documentation of the exact parameters of the pulses. High impulse energy/approx.80J/allows accurate implementation of high-energy welding technologies. The micro-machining system designed to be procured is a system for performing high precision (micro) machining, built with femtosekund laser, radiation-protected design, closed working space. The workpiece can be moved with X-Y axis, the machining head moves in Z direction. The equipment is equipped with optical elements for controlling laser pulses, its beam guide unit is suitable for adjusting and measuring radiation distribution, polarisation, pulse packet. The technical parameters are set out in detail in the enclosed quotation. The latest generation of lasers for material machining are ultra-short pulsed/USP/light sources. Pico- and femtosecundum lasers allow cold material processing. The most promising new technology in high-precision cutting, material structuring and drilling. Cold machining means intervention without thermal damage and provides previously impossible new applications. Femtosecundum material machining can be applied in electronics industry, micro and medical technology and other industrial fields. The acquisition of the equipment expands Lasram’s laser material machining possibilities, represents new applications in the field of micro-machining, new cooperation areas open and improves the cost-effectiveness of LASRAM medical laser production and, last but not least, helps to maintain the competitiveness of domestic supplier SMEs through the provision of wage and technological assistance by LASRAM. (English) / rank | |||||||||||||||
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| Property / summary: The content of the project is the purchase of 1 new production device, 1 micro-machining femtosecundous laser system. The device is suitable for producing pulses between 200 fs -10 ps. Very short pulses have a very high pulse power, approx. 700 MW. The beam conductor and radiation diagnostic components of the system ensure the adjustment, control, measurement and documentation of the exact parameters of the pulses. High impulse energy/approx.80J/allows accurate implementation of high-energy welding technologies. The micro-machining system designed to be procured is a system for performing high precision (micro) machining, built with femtosekund laser, radiation-protected design, closed working space. The workpiece can be moved with X-Y axis, the machining head moves in Z direction. The equipment is equipped with optical elements for controlling laser pulses, its beam guide unit is suitable for adjusting and measuring radiation distribution, polarisation, pulse packet. The technical parameters are set out in detail in the enclosed quotation. The latest generation of lasers for material machining are ultra-short pulsed/USP/light sources. Pico- and femtosecundum lasers allow cold material processing. The most promising new technology in high-precision cutting, material structuring and drilling. Cold machining means intervention without thermal damage and provides previously impossible new applications. Femtosecundum material machining can be applied in electronics industry, micro and medical technology and other industrial fields. The acquisition of the equipment expands Lasram’s laser material machining possibilities, represents new applications in the field of micro-machining, new cooperation areas open and improves the cost-effectiveness of LASRAM medical laser production and, last but not least, helps to maintain the competitiveness of domestic supplier SMEs through the provision of wage and technological assistance by LASRAM. (English) / qualifier | |||||||||||||||
point in time: 8 February 2022
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Revision as of 14:09, 8 February 2022
Project Q3913967 in Hungary
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Purchase of micro-machining femtosecundum laser system |
Project Q3913967 in Hungary |
Statements
522,000,000 forint
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2,853,905.126 Euro
0.0027336256 Euro
14 December 2021
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1,044,000,000.0 forint
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50.0 percent
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1 October 2015
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30 March 2017
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LASRAM ENGINEERING Műszaki Fejlesztő Korlátolt Felelősségű Társaság
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47°45'28.91"N, 18°44'7.84"E
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A projekt tartalma 1 db új termelő eszköz, 1 db mikromegmunkáló femtosekundmos lézerrendszer beszerzése. A berendezés 200 fs -10 ps közötti impulzusok előállítására alkalmas. A nagyon rövid impulzusokhoz igen magas impulzus teljesítmény tartozik, kb 700 MW. A rendszer sugárvezető és sugárdiagnosztikai elemei biztosítják az impulzusok pontos paramétereinek beállítását, vezérlését, mérését és dokumentálását. A magas impulzus energia /kb.80J/ lehetővé teszi nagy energiájú hegesztési technológiák pontos megvalósítását. A beszerezni tervezett mikromegmunkáló rendszer femtosekundmos lézerrel épített, sugárvédett kialakítású, zárt munkaterű, magas precizitású (mikro) megmunkálás végzésére alkalmas rendszer. A munkadarab X-Y tengellyel mozgatható, a megmunkálófej Z irányban mozog. A berendezés rendelkezik laser impulzusok beállítására, vezérlésére alkalmas optronikai elemekkel, sugárvezető egysége alkalmas a sugáreloszlás, polarizáció, impulzus csomag beállítására, mérésére. A műszaki paramétereket részletesen tartalmazza a csatolt árajánlat. Az anyagmegmunkálásra használható lézerek legújabb generációja az ultra rövid impulzusú /USP/ fényforrások. A pico- és femtosekundumos lézerek hideg anyagmegmunkálást tesznek lehetővé. A jelenleg legígéretesebb új technológia a magas-precizitású vágás, anyag strukturálás és fúrás területén. A hideg megmunkálás lehetősége hőkárosodás nélküli beavatkozást jelent és korábban lehetetlen új alkalmazásokat biztosít. A femtosekundumos anyagmegmunkálás alkalmazható az elektronikai iparban, a mikro és medikai technológiák területén és egyéb ipari területeken. A berendezés beszerzése bőviti a Lasram lézeres anyagmegmunkálási lehetőségeit, új alkalmazási területeket jelent a mikromegmunkálás területén, új kooperációs területek nyilnak és javítja a LASRAM orvosi lézergyártás költséghatékonyságát és nem utolsó sorban segíti a hazai beszállító KKV-ék versenyképességének megőrzését a LASRAM által nyújtott bérmunka és technológiai segítségnyújtás révén. (Hungarian)
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The content of the project is the purchase of 1 new production device, 1 micro-machining femtosecundous laser system. The device is suitable for producing pulses between 200 fs -10 ps. Very short pulses have a very high pulse power, approx. 700 MW. The beam conductor and radiation diagnostic components of the system ensure the adjustment, control, measurement and documentation of the exact parameters of the pulses. High impulse energy/approx.80J/allows accurate implementation of high-energy welding technologies. The micro-machining system designed to be procured is a system for performing high precision (micro) machining, built with femtosekund laser, radiation-protected design, closed working space. The workpiece can be moved with X-Y axis, the machining head moves in Z direction. The equipment is equipped with optical elements for controlling laser pulses, its beam guide unit is suitable for adjusting and measuring radiation distribution, polarisation, pulse packet. The technical parameters are set out in detail in the enclosed quotation. The latest generation of lasers for material machining are ultra-short pulsed/USP/light sources. Pico- and femtosecundum lasers allow cold material processing. The most promising new technology in high-precision cutting, material structuring and drilling. Cold machining means intervention without thermal damage and provides previously impossible new applications. Femtosecundum material machining can be applied in electronics industry, micro and medical technology and other industrial fields. The acquisition of the equipment expands Lasram’s laser material machining possibilities, represents new applications in the field of micro-machining, new cooperation areas open and improves the cost-effectiveness of LASRAM medical laser production and, last but not least, helps to maintain the competitiveness of domestic supplier SMEs through the provision of wage and technological assistance by LASRAM. (English)
8 February 2022
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Esztergom, Komárom-Esztergom
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Identifiers
GINOP-1.2.1-15-2015-00188
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