New Calculation Software for Analytic Support Structure Optimization in Metal Additive Manufacturing

Raphael Tiefnig; Franz Haas

doi:10.1007/s00501-023-01350-7

New Calculation Software for Analytic Support Structure Optimization in Metal Additive Manufacturing

Titel in Übersetzung: Neue Berechnungssoftware für die analytische Optimierung von Stützstrukturen in der metall-additiven Fertigung

Raphael Tiefnig^*, Franz Haas

^*Korrespondierende/r Autor/-in für diese Arbeit

Institut für Fertigungstechnik (3010)

Publikation: Beitrag in einer Fachzeitschrift › Artikel › Begutachtung

Abstract

Powder based additive manufacturing systems often require support structures for overhanging geometries and thermal dissipation. On the one hand, the support material should be reduced to a minimum. On the other hand, the stiffness of the structures can be used as a fixture for post-processing. The contribution presents a unique analytic model to determine the stresses occurring in the support structures during post-processing. FEM simulations with different support types are carried out to validate the new calculation model. The results of this analysis subsequently serve as basis for dimensioning the support elements of complex and large parts. By specifying a machining process, it is possible to determine the required dimensions of the support structure (e.g. block, rod or cross). The aim of this optimization process is to reduce machining time, material consumption and post-processing costs. The results of the paper and the new software help to implement direct machining into industrial 3D printing processes.

Titel in Übersetzung	Neue Berechnungssoftware für die analytische Optimierung von Stützstrukturen in der metall-additiven Fertigung
Originalsprache	englisch
Seiten (von - bis)	259–265
Fachzeitschrift	Berg- und hüttenmännische Monatshefte
Jahrgang	168
Ausgabenummer	5
DOIs	https://doi.org/10.1007/s00501-023-01350-7
Publikationsstatus	Veröffentlicht - 13 Mai 2023
Veranstaltung	Metal Additive Manufacturing Conference 2022: MAMC 2022 - TU Graz, Graz, Österreich Dauer: 26 Sept. 2022 → 28 Sept. 2022

ASJC Scopus subject areas

Allgemeiner Maschinenbau

Fields of Expertise

Mobility & Production

Treatment code (Nähere Zuordnung)

Experimental

UN SDGs

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10.1007/s00501-023-01350-7Lizenz: CC BY 4.0

s00501-023-01350-7Endgültige, publizierte Fassung, 1,45 MBLizenz: CC BY 4.0

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abstract = "Powder based additive manufacturing systems often require support structures for overhanging geometries and thermal dissipation. On the one hand, the support material should be reduced to a minimum. On the other hand, the stiffness of the structures can be used as a fixture for post-processing. The contribution presents a unique analytic model to determine the stresses occurring in the support structures during post-processing. FEM simulations with different support types are carried out to validate the new calculation model. The results of this analysis subsequently serve as basis for dimensioning the support elements of complex and large parts. By specifying a machining process, it is possible to determine the required dimensions of the support structure (e.g. block, rod or cross). The aim of this optimization process is to reduce machining time, material consumption and post-processing costs. The results of the paper and the new software help to implement direct machining into industrial 3D printing processes.",

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author = "Raphael Tiefnig and Franz Haas",

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AU - Tiefnig, Raphael

AU - Haas, Franz

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N2 - Powder based additive manufacturing systems often require support structures for overhanging geometries and thermal dissipation. On the one hand, the support material should be reduced to a minimum. On the other hand, the stiffness of the structures can be used as a fixture for post-processing. The contribution presents a unique analytic model to determine the stresses occurring in the support structures during post-processing. FEM simulations with different support types are carried out to validate the new calculation model. The results of this analysis subsequently serve as basis for dimensioning the support elements of complex and large parts. By specifying a machining process, it is possible to determine the required dimensions of the support structure (e.g. block, rod or cross). The aim of this optimization process is to reduce machining time, material consumption and post-processing costs. The results of the paper and the new software help to implement direct machining into industrial 3D printing processes.

AB - Powder based additive manufacturing systems often require support structures for overhanging geometries and thermal dissipation. On the one hand, the support material should be reduced to a minimum. On the other hand, the stiffness of the structures can be used as a fixture for post-processing. The contribution presents a unique analytic model to determine the stresses occurring in the support structures during post-processing. FEM simulations with different support types are carried out to validate the new calculation model. The results of this analysis subsequently serve as basis for dimensioning the support elements of complex and large parts. By specifying a machining process, it is possible to determine the required dimensions of the support structure (e.g. block, rod or cross). The aim of this optimization process is to reduce machining time, material consumption and post-processing costs. The results of the paper and the new software help to implement direct machining into industrial 3D printing processes.

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New Calculation Software for Analytic Support Structure Optimization in Metal Additive Manufacturing

Abstract

ASJC Scopus subject areas

Fields of Expertise

Treatment code (Nähere Zuordnung)

UN SDGs

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