Topology optimization subject to additive manufacturing constraints
Abstract In topology optimization the goal is to find the ideal material distribution in a domain subject to external forces. The structure is optimal if it has the highest possible stiffness. A volume constraint ensures filigree structures, which are regulated via a Ginzburg–Landau term. During 3D...
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2021
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oai:doaj.org-article:353f35641fa44c95adb93b83d68db4302021-11-14T12:15:01ZTopology optimization subject to additive manufacturing constraints10.1186/s13362-021-00115-62190-5983https://doaj.org/article/353f35641fa44c95adb93b83d68db4302021-11-01T00:00:00Zhttps://doi.org/10.1186/s13362-021-00115-6https://doaj.org/toc/2190-5983Abstract In topology optimization the goal is to find the ideal material distribution in a domain subject to external forces. The structure is optimal if it has the highest possible stiffness. A volume constraint ensures filigree structures, which are regulated via a Ginzburg–Landau term. During 3D printing overhangs lead to instabilities. As a remedy an additive manufacturing constraint is added to the cost functional. First order optimality conditions are derived using a formal Lagrangian approach. With an Allen-Cahn interface propagation the optimization problem is solved iteratively. At a low computational cost the additive manufacturing constraint brings about support structures, which can be fine tuned according to demands and increase stability during the printing process.Moritz Ebeling-RumpDietmar HömbergRobert LasarzikThomas PetzoldSpringerOpenarticleAdditive manufacturingTopology optimizationLinear elasticityPhase field methodOptimality conditionsNumerical simulationsMathematicsQA1-939IndustryHD2321-4730.9ENJournal of Mathematics in Industry, Vol 11, Iss 1, Pp 1-19 (2021) |
| institution |
DOAJ |
| collection |
DOAJ |
| language |
EN |
| topic |
Additive manufacturing Topology optimization Linear elasticity Phase field method Optimality conditions Numerical simulations Mathematics QA1-939 Industry HD2321-4730.9 |
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Additive manufacturing Topology optimization Linear elasticity Phase field method Optimality conditions Numerical simulations Mathematics QA1-939 Industry HD2321-4730.9 Moritz Ebeling-Rump Dietmar Hömberg Robert Lasarzik Thomas Petzold Topology optimization subject to additive manufacturing constraints |
| description |
Abstract In topology optimization the goal is to find the ideal material distribution in a domain subject to external forces. The structure is optimal if it has the highest possible stiffness. A volume constraint ensures filigree structures, which are regulated via a Ginzburg–Landau term. During 3D printing overhangs lead to instabilities. As a remedy an additive manufacturing constraint is added to the cost functional. First order optimality conditions are derived using a formal Lagrangian approach. With an Allen-Cahn interface propagation the optimization problem is solved iteratively. At a low computational cost the additive manufacturing constraint brings about support structures, which can be fine tuned according to demands and increase stability during the printing process. |
| format |
article |
| author |
Moritz Ebeling-Rump Dietmar Hömberg Robert Lasarzik Thomas Petzold |
| author_facet |
Moritz Ebeling-Rump Dietmar Hömberg Robert Lasarzik Thomas Petzold |
| author_sort |
Moritz Ebeling-Rump |
| title |
Topology optimization subject to additive manufacturing constraints |
| title_short |
Topology optimization subject to additive manufacturing constraints |
| title_full |
Topology optimization subject to additive manufacturing constraints |
| title_fullStr |
Topology optimization subject to additive manufacturing constraints |
| title_full_unstemmed |
Topology optimization subject to additive manufacturing constraints |
| title_sort |
topology optimization subject to additive manufacturing constraints |
| publisher |
SpringerOpen |
| publishDate |
2021 |
| url |
https://doaj.org/article/353f35641fa44c95adb93b83d68db430 |
| work_keys_str_mv |
AT moritzebelingrump topologyoptimizationsubjecttoadditivemanufacturingconstraints AT dietmarhomberg topologyoptimizationsubjecttoadditivemanufacturingconstraints AT robertlasarzik topologyoptimizationsubjecttoadditivemanufacturingconstraints AT thomaspetzold topologyoptimizationsubjecttoadditivemanufacturingconstraints |
| _version_ |
1718429339475771392 |