Ebg Gesellschaft für Elektromagnetische Werkstoffe Mbh

	Contact
	Téléphone : Mail : Adresse : Castroper Strasse 44791 Bochum Allemagne Web :

	Consultez cette fiche en intégralité ?
	Consultez cette fiche et près de 50 000 autres fiches de Centres de Recherche dans plus de 30 pays européens sur Expernova.com ! Inscrivez-vous ou contactez-nous pour une démonstration personnalisée. Il s’agit de votre centre de Recherche ? Inscrivez-vous gratuitement et complétez vos informations.

	Profil scientifique partiel

	Quelques documents de Ebg Gesellschaft für Elektromagnetische Werkstoffe Mbh
	On-line measurement of magnetic properties of electrical steel strip 2000 - 2003 Sujets : Materials Technology, Industrial Manufacture Type de contrat : Cost-sharing contracts Participants : CENTRO SVILUPPO MATERIALI SPA ITALIA CENTRO SVILUPPO MATERIALI SPA Research C.P. 10747 Via di Castel Romano 100/102 00128 ITALIA EBG Gesellschaft für Elektromagnetische Werkstoffe mbH DEUTSCHLAND EBG Gesellschaft für Elektromagnetische Werkstoffe mbH Industry Castroper Strasse 44791 DEUTSCHLAND INTERMAGNET DEUTSCHLAND INTERMAGNET Industry Vulkanstraße 51 47807 DEUTSCHLAND SOLLAC France SOLLAC Industry Immeuble "PACIFIC", La Défense 7 11/13 Cours Valmy 92800 France EBG Gesellschaft für Elektromagnetische Werkstoffe mbH Germany EBG Gesellschaft für Elektromagnetische Werkstoffe mbH Industry Castroper Strasse Germany INTERMAGNET Germany INTERMAGNET Industry Vulkanstraße 51 Germany EUROPEAN ELECTRICAL STEELS United Kingdom EUROPEAN ELECTRICAL STEELS Industry P.O. Box 30 Corporation Road Newport NP19 0XT United Kingdom Hide objective The objective of this project is the development; testing and optimisation of an electric device for measuring standardised magnetic properties of a non- oriented electrical steel strip moving inside a processing line. This will be the first equipment in the world, which enables the manufacturers of this kind of materials to determine accurately the magnetic properties of their products (including magnetic anisotropy without the necessity of cutting samples from each coil and performing measurements on them off-line. Source : cordis   Warm working for high silicon electrical steels 1998 - 2001 Sujets : Industrial Manufacture, Materials Technology Type de contrat : Cost-sharing contracts Participants : N/A N/A EBG Gesellschaft für Elektromagnetische Werkstoffe mbH DEUTSCHLAND EBG Gesellschaft für Elektromagnetische Werkstoffe mbH Industry Castroper Strasse 44791 DEUTSCHLAND Universiteit Gent BELGIQUE-BELGIË Universiteit Gent Education Laboratory for Iron and Steelmaking Technologieparkuwstraat 9052 BELGIQUE-BELGIË EBG Gesellschaft für Elektromagnetische Werkstoffe mbH Germany EBG Gesellschaft für Elektromagnetische Werkstoffe mbH Industry Castroper Strasse Germany PHASE MOTION CONTROL Italy PHASE MOTION CONTROL Industry Lungo biasagno Istria 14/27 BR Italy Geo L Scott & Company United Kingdom Geo L Scott & Company Industry Technical Department Cromwell Road L65 4DT United Kingdom Hide general information Objectives and content: Electrical steels are used in sheet form in electrical transformers and motor cores. Both transformers and motors unproductively dissipate, or loose, a portion of the applied electrical energy. These losses could be significantly reduced by the introduction of new low loss materials, containing a higher silicon content than do conventional alloys. However, increasing silicon content introduces processing difficulties and increases costs. Hence their widespread introduction has been inhibited. The proposed programme is aimed at exploring the feasibility of reducing the cost of higher silicon content steels and assessing the consequential benefits of doing so. Novel processing routes will be investigated and new designs of motors developed to capitalise on the reduced electrical losses. These will be achieved through research into the warm working and electroplastic processing of warm worked high silicon steels containing up to 6.5% silicon. Motor laminations will be manufactured from these steels and built into novel motor designs. This will enable the impact of the new steels in motor manufacture and performance to be assessed. The major research tasks are: - Introduce novel modifications (electroplasticity) to the conventional fabrication route for high silicon steels containing up to 6.5% silicon; - Develop a warm working process based on Transverse Flux Induction Heating technology for high silicon steels containing up to 6.5% silicon; - To realise the final thickness of 0.5 mm for high silicon steels through a combination of hot and warm rolling; - To manufacture and characterise novel motors designed to capitalise on the enhanced properties of the higher silicon steels. The success of this project will also lead to considerable reduction in energy expended in transformers and motor cores, thus reducing the emission of carbon dioxide and reducing the requirement for new power station construction. BE97-4577 Source : cordis