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Article citations


Schwantes, S., Gerster, P. and Schulze, K.-R. (2007) Schweiβen der höchstfester Feinkornstähle S1100QL und S1300QL—Ein Vergleich des Elektronenstrahlschweiβen an Atmosphäre mit einem Plasma-MSG-Hybridverfahren, erschienene. In: Reisgen, U. (Hrsg.) and Willms, K. (Red.), Eds., Schweiβtechnik und Fügetechnik—Schlüsseltechnologien der Zukunft: 10. Internationales Aachener Schweiβtechnik-Kolloquium, Shaker, Aachen, 543- 558.

has been cited by the following article:

  • TITLE: Cutting and Welding of High-Strength Steels Using Non-Vacuum Electron Beam as a Universal Tool for Material Processing

    AUTHORS: Thomas Hassel, Nils Murray, Georgii Klimov, Alexander Beniyash

    KEYWORDS: Welding, High-Strength Steels, Non-Vacuum Electron Beam Welding, Non-Vacuum Electron Beam Cutting

    JOURNAL NAME: World Journal of Engineering and Technology, Vol.4 No.4, November 22, 2016

    ABSTRACT: Using a non-vacuum electron beam, a two-step process chain for plate materials is a feasible possibility. Cutting and welding can be performed in subsequent steps on the same machine for a highly productive process chain. The electron beam is a tool with high energy conversion efficiency, which is largely independent of the type of metal. Its high power density qualifies the non-vacuum electron beam as an outstanding energy source for the well-known NVEB welding as well as for high-speed cutting. Welding is possible with or without filler wire or shielding gas, depending on the application. The NVEB-cutting process employs a co-moving cutting head with a sliding seal for extremely high cutting speeds producing high quality edges. Due to direct removal of fumes and dust, NVEBC with local suction is an exceptionally clean and fast process. The NVEB welding process is possible directly after cutting, without further edge preparation. The potential directions of development of non-vacuum electron beam technologies are discussed. An exemplary two-step process chain using high-strength steel is presented to highlight possible application in industries such as general steel construction, automotive, shipbuilding, railway vehicle or crane construction. An analysis of the mechanical properties of the resulting weld seam is presented.