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Hepler, Irja B., Davids, William G. (2024) Development of a Novel Beam-Based Finite-Element Approach for the Computationally Efficient Prediction of Residual Stresses and Displacements in Large 3D-Printed Polymer Parts. Applied Sciences, 14 (19). doi:10.3390/app14198834

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Reference TypeJournal (article/letter/editorial)
TitleDevelopment of a Novel Beam-Based Finite-Element Approach for the Computationally Efficient Prediction of Residual Stresses and Displacements in Large 3D-Printed Polymer Parts
JournalApplied Sciences
AuthorsHepler, Irja B.Author
Davids, William G.Author
Year2024 (October 1)Volume14
Issue19
PublisherMDPI AG
DOIdoi:10.3390/app14198834Search in ResearchGate
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Mindat Ref. ID17628512Long-form Identifiermindat:1:5:17628512:0
GUID0
Full ReferenceHepler, Irja B., Davids, William G. (2024) Development of a Novel Beam-Based Finite-Element Approach for the Computationally Efficient Prediction of Residual Stresses and Displacements in Large 3D-Printed Polymer Parts. Applied Sciences, 14 (19). doi:10.3390/app14198834
Plain TextHepler, Irja B., Davids, William G. (2024) Development of a Novel Beam-Based Finite-Element Approach for the Computationally Efficient Prediction of Residual Stresses and Displacements in Large 3D-Printed Polymer Parts. Applied Sciences, 14 (19). doi:10.3390/app14198834
In(2024, September) Applied Sciences Vol. 14 (19). MDPI AG

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