Numerical Modeling of Distortions and Residual Stresses During Wire Arc Additive Manufacturing of an ER 5183 Alloy with Weaving Deposition

Hugo Drexler; Fabio Haunreiter; Lukas Raberger; Leonhard Reiter; Andreas Hütter; Norbert Enzinger

doi:10.1007/s00501-023-01421-9

Numerical Modeling of Distortions and Residual Stresses During Wire Arc Additive Manufacturing of an ER 5183 Alloy with Weaving Deposition

Hugo Drexler^*, Fabio Haunreiter, Lukas Raberger, Leonhard Reiter, Andreas Hütter, Norbert Enzinger^*

^*Corresponding author for this work

Institute of Materials Science, Joining and Forming (3030)

Research output: Contribution to journal › Article › peer-review

Abstract

This study deals with the numerical modelling of residual stresses and distortions occurring during wire arc additive manufacturing of ER 5183 parts with weaving
deposition. It is shown that the mesh size, as well as the accurate implementation of the heat source weaving pattern has a significant impact on the results. The mechanical material properties for the simulation are evaluated utilizing in-house standardized test equipment. Validation of the thermo-mechanical simulation is done by monitoring temperatures and distortions during the process. Additionally, 3D scans of the part geometry and residual stress measurements using the hole drilling method are conducted post manufacturing. A good agreement between the experimental measurements and the numerical simulation results is found with the use of an accurate heat source model.

Original language	English
Pages (from-to)	38-47
Number of pages	10
Journal	Berg- und hüttenmännische Monatshefte
Volume	169
Issue number	1
DOIs	https://doi.org/10.1007/s00501-023-01421-9
Publication status	E-pub ahead of print - 12 Jan 2024

Fields of Expertise

Advanced Materials Science

Access to Document

10.1007/s00501-023-01421-9Licence: CC BY 4.0

We3D - Wire-based additive manufacturing – materials and technologies – for 3D metal structures of the future
Enzinger, N.
1/03/21 → 28/02/25
Project: Research project

Cite this

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title = "Numerical Modeling of Distortions and Residual Stresses During Wire Arc Additive Manufacturing of an ER 5183 Alloy with Weaving Deposition",

abstract = "This study deals with the numerical modelling of residual stresses and distortions occurring during wire arc additive manufacturing of ER 5183 parts with weavingdeposition. It is shown that the mesh size, as well as the accurate implementation of the heat source weaving pattern has a significant impact on the results. The mechanical material properties for the simulation are evaluated utilizing in-house standardized test equipment. Validation of the thermo-mechanical simulation is done by monitoring temperatures and distortions during the process. Additionally, 3D scans of the part geometry and residual stress measurements using the hole drilling method are conducted post manufacturing. A good agreement between the experimental measurements and the numerical simulation results is found with the use of an accurate heat source model.",

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author = "Hugo Drexler and Fabio Haunreiter and Lukas Raberger and Leonhard Reiter and Andreas H{\"u}tter and Norbert Enzinger",

year = "2024",

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doi = "10.1007/s00501-023-01421-9",

language = "English",

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T1 - Numerical Modeling of Distortions and Residual Stresses During Wire Arc Additive Manufacturing of an ER 5183 Alloy with Weaving Deposition

AU - Drexler, Hugo

AU - Haunreiter, Fabio

AU - Raberger, Lukas

AU - Reiter, Leonhard

AU - Hütter, Andreas

AU - Enzinger, Norbert

PY - 2024/1/12

Y1 - 2024/1/12

N2 - This study deals with the numerical modelling of residual stresses and distortions occurring during wire arc additive manufacturing of ER 5183 parts with weavingdeposition. It is shown that the mesh size, as well as the accurate implementation of the heat source weaving pattern has a significant impact on the results. The mechanical material properties for the simulation are evaluated utilizing in-house standardized test equipment. Validation of the thermo-mechanical simulation is done by monitoring temperatures and distortions during the process. Additionally, 3D scans of the part geometry and residual stress measurements using the hole drilling method are conducted post manufacturing. A good agreement between the experimental measurements and the numerical simulation results is found with the use of an accurate heat source model.

AB - This study deals with the numerical modelling of residual stresses and distortions occurring during wire arc additive manufacturing of ER 5183 parts with weavingdeposition. It is shown that the mesh size, as well as the accurate implementation of the heat source weaving pattern has a significant impact on the results. The mechanical material properties for the simulation are evaluated utilizing in-house standardized test equipment. Validation of the thermo-mechanical simulation is done by monitoring temperatures and distortions during the process. Additionally, 3D scans of the part geometry and residual stress measurements using the hole drilling method are conducted post manufacturing. A good agreement between the experimental measurements and the numerical simulation results is found with the use of an accurate heat source model.

KW - thermo-mechanical simulation

KW - ER 5183

KW - CMT

KW - wire arc additive manufacturing

KW - weaving deposition

KW - Thermomechanische Simulation

KW - Drahtbasierte Additive Fertigung

KW - Pendelnde Schweißbewegung

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ER -

Numerical Modeling of Distortions and Residual Stresses During Wire Arc Additive Manufacturing of an ER 5183 Alloy with Weaving Deposition

Abstract

Fields of Expertise

Access to Document

Projects

We3D - Wire-based additive manufacturing – materials and technologies – for 3D metal structures of the future

Cite this