Q4300829 (Q4300829): Difference between revisions

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Project Q4300829 in Netherlands, Germany

Revision as of 20:40, 10 June 2022

Project Q4300829 in Netherlands, Germany
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Project Q4300829 in Netherlands, Germany

    Statements

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    2,233,424.01 Euro
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    4,620,607.3 Euro
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    48.34 percent
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    1 July 2016
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    31 December 2020
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    Fachhochschule Münster
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    52°10'8.36"N, 6°23'13.42"E
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    51°57'39.31"N, 7°36'29.20"E
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    52°14'19.57"N, 6°51'1.94"E
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    53°9'4.64"N, 8°9'59.69"E
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    53°6'25.81"N, 6°5'22.20"E
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    51°26'31.56"N, 6°46'16.03"E
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    51°58'12.04"N, 7°35'35.45"E
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    51°24'41.51"N, 5°25'23.05"E
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    52°2'12.73"N, 6°50'7.12"E
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    51°36'51.62"N, 5°30'27.25"E
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    52°2'12.55"N, 6°50'23.53"E
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    51°58'5.16"N, 7°35'41.21"E
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    52°11'2.18"N, 5°59'14.86"E
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    50°50'0.10"N, 5°42'57.85"E
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    The project ‚Use and further development of modern processes for surface structuring for interdisciplinary applications in the regional industry’ (MOVERO) is concerned with micro structuring of film surfaces by the use of an embossing roller process which can be applied for a wide range of industrial applications. The project belongs to the field of industrial research and is for this purpose focused on the following six key activities - reflective foils for solar cells, - optical microstructures, - soft-touch structures, - antibacterial surface structures; - structured metal surfaces for the creation of biomedical effects, - structured polymer surfaces with self-cleaning properties. During the project the companies of the various branches and the universities (of applied sciences) will corporately develop the theoretical basis of surface geometries and their functional properties and will use the acquired knowledge to realize an industrial application. The common feature of the planned applications is a more rapid high capacity ultra-short-pulse laser surface ablation and, if necessary, a following step of laser polishing, which will enable the creation of various surface geometries on embossing rolls. This makes it possible to quickly and cost-effectively transfer the optimized structures onto the various film surfaces (synthetic material, metals) during the following embossing step by the use of a reel-to-reel process which allows the adaption of the form and structural size of the functionalized surfaces to the corresponding areas of application. There is a large target group which will benefit from advances in the field of surface technology, such as the automotive industry, packaging industry (e.g. food packaging, RFID, security elements for copy protection), the energy technology (solar technology), the print and advertising technology, the medical technology and users in the field of light technology. (English)
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