Numerical modeling of part sedimentation during volumetric additive manufacturing

Volumetric additive manufacturing has a number of advantages as compared to conventional additive manufacturing methods, but it can still suffer from premature sedimentation in which the part sinks down during the printing process - especially in the final seconds- affecting the method’s geometric f...

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Published inAdditive manufacturing Vol. 66; p. 103459
Main Authors Salajeghe, Roozbeh, Meile, Daniel Helmuth, Kruse, Carl Sander, Marla, Deepak, Spangenberg, Jon
Format Journal Article
LanguageEnglish
Published Elsevier B.V 25.03.2023
Subjects
Numerical modeling
Sedimentation
UV curing simulation
Volumetric additive manufacturing
Volumetric additive manufacturing
Numerical modeling
Sedimentation
UV curing simulation
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Abstract Volumetric additive manufacturing has a number of advantages as compared to conventional additive manufacturing methods, but it can still suffer from premature sedimentation in which the part sinks down during the printing process - especially in the final seconds- affecting the method’s geometric fidelity, resolution, and limits its applicability only to high-viscosity resins. In this study, a numerical model has been developed to investigate the effect of different material properties and process parameters on the sedimentation of the printed part. After a qualitative validation of the model, the role of the resin viscosity in the sedimentation phenomenon is elucidated, and it is shown how a rise in the cross-section ratio of the printed geometry to the container can reduce the sedimentation, while an increase in the curing time and the container’s rotation velocity can escalate the sinking of the part. Furthermore, it is found that raising the final density and viscosity of the curing material at the end of the print will worsen and mitigate the sinking effect, respectively. Finally, the effect of the orientation of the printed part on the sedimentation ratio is explored. The model developed herein illuminates a new avenue for better understanding the physics taking place during volumetric additive manufacturing, which is essential to further improve the applicability of the technology.
AbstractList Volumetric additive manufacturing has a number of advantages as compared to conventional additive manufacturing methods, but it can still suffer from premature sedimentation in which the part sinks down during the printing process - especially in the final seconds- affecting the method’s geometric fidelity, resolution, and limits its applicability only to high-viscosity resins. In this study, a numerical model has been developed to investigate the effect of different material properties and process parameters on the sedimentation of the printed part. After a qualitative validation of the model, the role of the resin viscosity in the sedimentation phenomenon is elucidated, and it is shown how a rise in the cross-section ratio of the printed geometry to the container can reduce the sedimentation, while an increase in the curing time and the container’s rotation velocity can escalate the sinking of the part. Furthermore, it is found that raising the final density and viscosity of the curing material at the end of the print will worsen and mitigate the sinking effect, respectively. Finally, the effect of the orientation of the printed part on the sedimentation ratio is explored. The model developed herein illuminates a new avenue for better understanding the physics taking place during volumetric additive manufacturing, which is essential to further improve the applicability of the technology.
ArticleNumber 103459
Author Marla, Deepak
Meile, Daniel Helmuth
Salajeghe, Roozbeh
Kruse, Carl Sander
Spangenberg, Jon
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  givenname: Jon
  surname: Spangenberg
  fullname: Spangenberg, Jon
  organization: Department of Mechanical Engineering, Technical University of Denmark, Kgs. Lyngby, Denmark
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Keywords Volumetric additive manufacturing
Numerical modeling
Sedimentation
UV curing simulation
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Snippet Volumetric additive manufacturing has a number of advantages as compared to conventional additive manufacturing methods, but it can still suffer from premature...
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StartPage 103459
SubjectTerms Numerical modeling
Sedimentation
UV curing simulation
Volumetric additive manufacturing
Title Numerical modeling of part sedimentation during volumetric additive manufacturing
URI https://dx.doi.org/10.1016/j.addma.2023.103459
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