Hugo Jorgensen

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	Téléphone : Mail : Adresse : PO Box 30 29-31,Ryttemarken 3 3520 Farum Danemark Web :

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	Profil scientifique partiel

	Quelques documents de Hugo Jorgensen
	Temco stretch 1999 - 2000 Sujets : Innovation, Technology Transfer, Industrial Manufacture, Electronics, Microelectronics Type de contrat : Cooperative research contracts Participants : Hugo Jorgensen A/S DANMARK Hugo Jorgensen A/S Industry PO Box 30 29-31,Ryttemarken 3 3520 DANMARK INSTITUTE FOR PRODUCT DEVELOPMENT DANMARK INSTITUTE FOR PRODUCT DEVELOPMENT Research Building 358 DTU 2800 DANMARK AACHEN UNIVERSITY OF TECHNOLOGY DEUTSCHLAND AACHEN UNIVERSITY OF TECHNOLOGY Education INSTITUT FÜR KUNSTOFFVERARBEITUNG 49,Pontstraße 49 52062 DEUTSCHLAND Allobi AB SVERIGE Allobi AB Industry PO Box 54 340 14 SVERIGE Kyhlenso Automatik Elanlaeg AS DANMARK Kyhlenso Automatik Elanlaeg AS Industry PO Box 237 Kong Georgsvej 27 2000 DANMARK Rovers BV NEDERLAND Rovers BV Industry Product Development Lekstraat 10 5347 NEDERLAND Denjaru Plast aps DANMARK Denjaru Plast aps Industry PO Box 30 Frederiksborgvej 399 4000 DANMARK Denjaru Plast Denmark Denjaru Plast Industry PO Box 30 Frederiksborgvej 399 4000 Denmark Hugo Jorgensen Denmark Hugo Jorgensen Industry PO Box 30 29-31,Ryttemarken 3 3520 Denmark Kyhlenso Automatik Elanlaeg AS Denmark Kyhlenso Automatik Elanlaeg AS Industry PO Box 237 Kong Georgsvej 27 2000 Denmark Allobi Sweden Allobi Industry PO Box 54 Sweden Rovers Netherlands Rovers Industry Product Development Lekstraat 10 Netherlands Hide general information TEMCO STRETCH, heat stable, biaxially oriented PET bags and devices for use in the medical sector. The project is proposed by a consortium of industrial companies, all of whom are involved in plastics and/or medical industries or in technologies supporting these manufacturing areas. Their common interest, which has led to this proposal, is to exploit and pursue opportunities to combine tools, manufacturing methods and products of both worlds. The subject of this project is alternatives to PVC and Latex materials in the medical sector. In short, the idea is to develop a process temperature controlled stretching which will facilitate that along range of items, today made by PVC, are substituted by products made by engineering plastics like polyethylenetereftalate PET. When biaxially oriented, PET crystallises and can be made heat stable in the area of up to 120°C which is needed to pack blood and some IV solutions and sterilise medical instrument. Welding of oriented PET material will be part of the new manufacturing process, and studies of laser welding in the Exploratory Phase looks promising. By controlled temperature during the stretching process, the new PET products can be manufactured with a wall thickness in the area of lO, lOO,. As a result hereof, a 40g PVC blood bag can be substituted by a 5g PET bag. When successfully developed and implemented, the new manufacturing process will lead to a quite new industrial exploitation of the environmentally friendly material PET. Thus, the project will have a large positive impact on the physical environment in two different ways: it will ensure conservation of natural resources and reduce the amount of industrial difficult to dispose of waste. - no migration of plasticizers like DEHP into blood in blood bags. Project results will be exploited by the partners as an expansion of their core businesses As they are ei ther involved in the plastics or medical industry or in technologies related to the proposed project, they have already identified a substantial market for the process as well as the products resulting from it. Source : cordis