| 20th Innovative Manufacturing Engineering and Energy Conference | |
| Random lattice structures. Modelling, manufacture and FEA of their mechanical response | |
| 机械制造;能源学 | |
| Maliaris, G.^1 ; Sarafis, I.T.^2 ; Lazaridis, T.^2 ; Varoutoglou, A.^2 ; Tsakataras, G.^2 | |
| Laboratory for Special Engineering, Department of Electrical and Computer Engineering, School of Engineering, Democritus University of Thrace, Xanthi | |
| GR67100, Greece^1 | |
| Mechanical Engineering Department, Technological Educational Institute of East Macedonia-Thrace, Agios Loukas, Kavala | |
| GR65404, Greece^2 | |
| 关键词: Compressive forces; Digital structures; Lattice structures; Mechanical behaviour; Mechanical response; Selective laser sintering; Structural parameter; Voronoi tessellations; | |
| Others : https://iopscience.iop.org/article/10.1088/1757-899X/161/1/012045/pdf DOI : 10.1088/1757-899X/161/1/012045 |
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| 来源: IOP | |
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【 摘 要 】
The implementation of lightweight structures in various applications, especially in Aerospace/ Automotive industries and Orthopaedics, has become a necessity due to their exceptional mechanical properties with respect to reduced weight. In this work we present a Voronoi tessellation based algorithm, which has been developed for modelling stochastic lattice structures. With the proposed algorithm, is possible to generate CAD geometry with controllable structural parameters, such as porosity, cell number and strut thickness. The digital structures were transformed into physical objects through the combination of 3D printing technics and investment casting. This process was applied to check the mechanical behaviour of generated digital models. Until now, the only way to materialize such structures into physical objects, was feasible through 3D printing methods such as Selective Laser Sintering/ Melting (SLS/ SLM). Investment casting possesses numerous advantages against SLS or SLA, with the major one being the material variety. On the other hand, several trials are required in order to calibrate the process parameters to have successful castings, which is the major drawback of investment casting. The manufactured specimens were subjected to compression tests, where their mechanical response was registered in the form of compressive load - displacement curves. Also, a finite element model was developed, using the specimens' CAD data and compression test parameters. The FE assisted calculation of specimen plastic deformation is identical with the one of the physical object, which validates the conclusions drawn from the simulation results. As it was observed, strut contact is initiated when specimen deformation is approximately 5mm. Although FE calculated compressive force follows the same trend for the first 3mm of compression, then diverges because of the elasto-plastic FE model type definition and the occurred remeshing steps.
【 预 览 】
| Files | Size | Format | View |
|---|---|---|---|
| Random lattice structures. Modelling, manufacture and FEA of their mechanical response | 1936KB |  download |
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