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Research and design works
ArticleName Prospects and visions for joining modern steels as hybrid constructions
ArticleAuthor J. Wilden, S. Jagn, N. Milahin, T. Luhn, L. Rehfeldt, S.-F. Goecke, E. Schmid, U. Berger.
ArticleAuthorData Prof., Dr. Eng. J. Wilden, Head of specialized direction "Technologies of joining and coating"; Dr. Eng. S. Jagn, Senior engineer.; Eng. N. Milahin, Scientific fellow.; Eng. T. Luhn, Scientific fellow.; L. Rehfeldt, Scientific fellow., Specialized direction "Technologies of joining and coating", Berlin Technical University, Berlin; Dr.-Eng. S.-F. Goecke, Head of direction of scientific-research and pilot-engineering works, EWM Hightec Welding GmbH, Mündersbach; Dr. Nat. E. Schmid, Head of quality management service; Dr. Nat. U. Berger, Manager of product development, Berkenhoff GmbH, Heuchelheim; johannes.wilden@tu-berlin.de
Abstract
Complex technical products typically consist of more than one component. Regarding the design of these assemblies, entirely different materials can be used. To manufacture products, which are appropriate to the requirements and loads as well as economically producible, the uses of different materials are needed. The increasing diversity of modern, innovative materials and their continuously increasing strength also lead to more stringent requirements on the joining processes. An economic and energy-efficient solution for these technological challenges can be realized by using innovative brazing processes in combination with new filler materials.
keywords Steels, joining, hybrid constructions, assemblies, mechanical properties, energy-efficient solutions, brazing process, filler materials.
References
1. Wilden, J.; Jahn, S.; Neumann, T.; Bergmann, J. P.; Holtz, R.; Richter, K.: Laserschweiβen mit im Puls modulierbaren Nd:YAGLaserstrahlquellen: Wechselwirkungsmechanismen zwischen Leistungs modulation und Schmelzbadströmung sowie Erstarrung, DVS-Berichte, Bd. 250, Düsseldorf, 2008, S. 425/29.
2. Bergmann, J. P.; Wilden, J.; Dolles, M.; Holtz, R.; Richter, K.: Stand und Perspektiven beim Laserstrahlschweiβen mit gepulsten modulierbaren Laser strahlquellen, Proc. 7. Internat. Konf. Strahltechnik, 17. –19. Apr. 2007, Halle (Saale), DVS Berichte, S. 58/ 61.
3. Müller, E.; Engelmann, J.; Löffler, T.; Strauch, J.: Energieeffiziente Fabriken planen und betreiben, Springer-Verlag, 2009.
4. N. N.: Bercoweld, Drahtlösungen für die Löt- und Schweiβtechnik, Produktübersicht Berkenhoff GmbH, 2009.
5. Hoyer, I. M.: Beitrag zur Entwicklung von Hochtemperaturloten auf Eisenbasis, Berlin, 2005 (Diss.).
6. Sjödin, P. E.: Material for joining and produced therewith, Internat. Patent WO 02/38327, 16. Mai 2002.
7. Sjödin, P. E.: Brazing material and brazed product manufactured therewith, Internat. Patent: WO 02/098600, 12. Dez. 2002.
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