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Das Versuchsfeld des LUF Bildinformationen anzeigen
Temperaturüberwachung der Ölhydraulik einer Umformpresse Bildinformationen anzeigen
Thermomechanische Behandlung einer Stahlprobe (Presshärten) Bildinformationen anzeigen
Reibdrücken: Verschließen eines Rohres Bildinformationen anzeigen
Werkzeug zum Innendrückwalzen Bildinformationen anzeigen
Spanende Bearbeitung eines Umformwerkzeuges (Vorlesung Werkzeugtechnologie) Bildinformationen anzeigen

Das Versuchsfeld des LUF

Temperaturüberwachung der Ölhydraulik einer Umformpresse

Thermomechanische Behandlung einer Stahlprobe (Presshärten)

Reibdrücken: Verschließen eines Rohres

Werkzeug zum Innendrückwalzen

Spanende Bearbeitung eines Umformwerkzeuges (Vorlesung Werkzeugtechnologie)

Mitarbeiter des LUF

Fabian Bader

Kontakt
Publikationen

Umformende und Spanende Fertigungstechnik

Wissenschaftlicher Mitarbeiter

Telefon:
+49 5251 60-5349
Büro:
IW1.854
Besucher:
Pohlweg 53
33098 Paderborn

Liste im Research Information System öffnen

2021

Innovative Measurement Of Stress Superposed Steel Strip For Straightening Machines

F. Bader, L. Bathelt, E. Djakow, W. Homberg, C. Henke, A. Trächtler, ESAFORM 2021 (2021)

<jats:p>Higher quality requirements by customers demand higher precision and accuracy from manufacturing processes. Application oriented preparation of semi-finished materials is key for subsequent forming operations, therefore, straightening machines are employed. Straightening strengthens the material by increasing plastic deformation by means of strain hardening, resulting in undesirable reduction in formability when processing high strength materials, in particular. Conventional roll-type straightening machines process either bars or strips. This is achieved upon passing material between rolls arranged in two staggered rows. However, conventional straightening processes do not adapt to the local varying distortion of coiled strips. Innovative, self-correcting process control techniques, which adapt to the initial geometric characteristics of the strip, present a promising approach to fix this issue through optimization of the leveling process. Here, an innovative strategy to improve straightening of high strength steel materials (1.4310) is presented. This implements optimized leveling, adding minimal plastic deformation and, thus, strain hardening. To operate an intelligent straightening machine, a reliable online measurement of the surface defects is fundamentally essential. The MagnaTest, which is developed for material testing, is made feasible for such purposes after calibrating for curvature measurement. Preliminary results are promising in regards to measuring the curvature online, so that the following straightening process can be close loop controlled. The bending measurement is linked to open/closed loop control, therefore providing an optimal straightening result in regards to formability, leveling, and reduced strain hardening.</jats:p>


    2019

    Intrinsically lubricated tool inserts for deep drawing applications generated by selective laser melting

    F. Bader, F. Hengsbach, K. Hoyer, W. Homberg, M. Schaper, in: PROCEEDINGS OF THE 22ND INTERNATIONAL ESAFORM CONFERENCE ON MATERIAL FORMING: ESAFORM 2019, 2019

    Abstract. Within the scope of this study, an intrinsically lubricated deep drawing die fabricated via laser beam melting (LBM) is investigated. In contrast to the common objective of generating highly dense LBM components, this work endeavors to achieve intended micro-scale porosity. By utilizing permeable structures, in-process closed-loop control of lubrication during the forming operations is feasible. Based on a modified AM scan strategy, the required filigree, porous structures can be generated. Thus, in the present work three permeable specimens are additively generated from the maraging steel 1.2709. The cylindrical specimens are then analyzed via light microscopy (LM), microcomputer tomography (microCT), and with regard to the oil throughput rate. Subsequently, an intrinsically lubricated, AM deep drawing tool die is manufactured and experimentally tested. The findings reveal interesting results for deep drawn specimens with AM deep drawing dies.


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