Dynamic Loading of Lattice Structure Made by Selective Laser Melting-Numerical Model with Substitution of Geometrical Imperfections
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Vrána, Radek
Červinek, Ondřej
Maňas, Pavel
Koutný, Daniel
Paloušek, David
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Mark
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MDPI
0000-0003-0146-7633 Altmetrics
Abstract
This article deals with the prediction of lattice structure mechanical properties under dynamic loading using finite element method (FEA) with inclusion of geometrical imperfections of the SLM process. Such properties are necessary to know especially for the application of SLM fabricated lattice structures in automotive or aerospace industries.
This article deals with the prediction of lattice structure mechanical properties under dynamic loading using finite element method (FEA) with inclusion of geometrical imperfections of the SLM process. Such properties are necessary to know especially for the application of SLM fabricated lattice structures in automotive or aerospace industries.
This article deals with the prediction of lattice structure mechanical properties under dynamic loading using finite element method (FEA) with inclusion of geometrical imperfections of the SLM process. Such properties are necessary to know especially for the application of SLM fabricated lattice structures in automotive or aerospace industries.
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Keywords
finite element analysis (FEA) , low-velocity impact , numerical model , lattice structure , material model , ANSYS Workbench , aluminum alloy AlSi10Mg , energy absorption , finite element analysis (FEA) , low-velocity impact , numerical model , lattice structure , material model , ANSYS Workbench , aluminum alloy AlSi10Mg , energy absorption
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Peer-reviewed
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en
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Defence
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