Jan Bräunig scite author profile

Additive manufacturing by laser beam melting is predestined for complex component geometry like integrated cooling channels without enormous posttreatment processing. To investigate the influence of build-up direction in terms of later tooth excitation of gear-wheels, first fundamental material analyses were accomplished in this publication. Therefore, additively produced specimens were used to determine the build-up direction dependent elastic properties of the material in all three spatial directions based on tensile and torsion tests. The anisotropies of elastic limits and breaking points of previous studies were confirmed in this paper. Furthermore, torsion values were also determined depending on build-up direction. Laser beam melted X3NiCoMoTi18-9-5 (hotwork tool steel) was shown to exhibit extremely high performance under shear loading in comparison to conventionally processed steel. The influence of build-up direction on torsional strength was also shown.

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Topology-Optimized Implants: Medical Requirements and Partial Aspects of a Design Engineering Process Chain

Neugebauer

Rotsch

Scherer

et al. 2012

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Aktive Geräuschminderung am Hinterachsgetriebe

Eulert¹,

Lührs²,

Bräunig

et al. 2010

ATZ Automobiltech Z

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In this article we present the results of a research project of Volkswagen AG and Fraunhofer IWU. It shows new approaches in the development of active mass dampers for transmission applications. The proposed active controlled system enables to reduce the interior sound pressure level of the rear axle gear mesh order by more than 5 dB. By detailed pre-examination of the drivetrain vibrations and transfer paths we gained new insights into the phenomenon of rear axle gear whine. In order to develop solutions to realise the damping of the vibrations we designed and constructed a test bench which consists of the main components of the rear axle unit and its bearings. The vibration phenomenon was replicated by synthetic excitation. Thus we could acquire an adequate control concept combined with a corresponding actuator and experimentally established control parameters.Validations on an experimental vehicle under synthetic excitation and finally under real driving conditions adduced the evidence for the functionality of the proposed system. KurzfassungDas in diesem Artikel beschriebene Forschungsprojekt der Volkswagen AG und des Fraunhofer IWU zeigt neue Ansätze bei der Entwicklung von aktiven Systemen zur Schwingungstilgung an Getrieben auf. Im Speziellen wurde der Geräuscheintrag einer bestimmten Zahneingriffsordnung des Hinterachsgetriebes in den Fahrgastraum eines PKWs um mehr als 5 dB gesenkt. Grundlage des Erfolges waren detaillierte Voruntersuchungen am Fahrzeug, mit deren Hilfe das Schwingungsphänomen eingegrenzt werden konnte. Mit dieser Kenntnis war es in einem weiteren Schritt möglich, Lösungsvorschläge zur Umsetzung der Schwingungstilgung zu entwickeln. Dazu wurde an einem Versuchstand, bestehend aus den Komponenten des hinteren Antriebsstrangs und deren Lagerung, das Schwingungsphänomen durch künstliche Anregung erzeugt. Auf dieser Basis wurden unterschiedliche Konzepte zur aktiven Schwingungstilgung untersucht sowie die Position des Aktors und Regelungsparameter versuchstechnisch abgestimmt. Abschließend konnte der Funktionsnachweis des Systems am Versuchsfahrzeug unter künstlicher Anregung und letztendlich unter realen Fahrbedingungen erbracht werden.

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New features and functions in implants through additive manufacturing technology and active materials

Rotsch¹,

Müller²,

Töppel³

et al. 2012

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Jan Bräunig

A reinforcement learning approach for optimal heating curve adaption

Advanced Material Studies for Additive Manufacturing in terms of Future Gear Application

Topology-Optimized Implants: Medical Requirements and Partial Aspects of a Design Engineering Process Chain

Aktive Geräuschminderung am Hinterachsgetriebe

New features and functions in implants through additive manufacturing technology and active materials

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