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Production Engineering

Erschienen in:

21.03.2018 | Production Process

An integrated macroscopic model for simulating SLM and milling processes

verfasst von: Petra Wiederkehr, Jim A. Bergmann

Erschienen in: Production Engineering | Ausgabe 3-4/2018

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Abstract

Due to their flexibility to also build up highly complex geometries, Additive Manufacturing (AM) processes are increasingly applied. Although near net-shape components can be manufactured using, for example, the Selective Laser Melting (SLM) process, the required surface quality can often not be achieved. In order to manufacture contact areas or functional surfaces, subsequent machining processes can be used to achieve the required accuracy in shape and dimension as well as the desired surface quality. In order to reduce the experimental effort during process design and optimization, simulation systems that are able to efficiently model both processes are required. In this paper, an empirical geometry-based model for SLM and milling processes will be presented. Due to the usage of an empirical model, based on the analysis of a set of reference structures, the simulation of macroscopic geometries can be achieved and used in subsequent milling simulations. Furthermore, an experimental validation of the combination of the two simulation models will be presented.

Vorheriger Artikel Thermal process simulation of droplet based metal printing with aluminium

Nächster Artikel Influence of the coolant nozzle orientation and size on the tool temperature under high-pressure coolant supply using an analogy test bench

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Titel: An integrated macroscopic model for simulating SLM and milling processes
verfasst von: Petra Wiederkehr
Jim A. Bergmann
Publikationsdatum: 21.03.2018
Verlag: Springer Berlin Heidelberg
Erschienen in: Production Engineering / Ausgabe 3-4/2018
Print ISSN: 0944-6524
Elektronische ISSN: 1863-7353
DOI: https://doi.org/10.1007/s11740-018-0822-3

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