Arndt, Alexander ; Hackbusch, Heike ; Anderl, Reiner (2015):
An Algorithm-Based Method For Process-Specific Three-Dimensional Nesting For Additive Manufacturing Processes.
Austin, Texas, 26th Solid Freeform Fabrication Symposium 2015, Austin, Texas, 10.08.-12.08.2015, [Conference or Workshop Item]
Abstract
To achieve optimal and high-quality results through additive manufacturing, the process- and technology-specific orientation and positioning of components within the virtual space, the so-called nesting, is essential. Primarily the nesting step is examined in this paper. From a scientific perspective it is a matter of examining this process and furthermore to analyze the optimal insertion of supporting structures, since the critical machine-specific parameters have been insufficiently studied. Within this paper a new multi-criteria optimization based on a conceptual algorithm is proposed. The most important point is the consideration of a technical and not only geometric nesting process. The objective is the demonstration of restrictions and boundary conditions and a first developing for a new approach for the nesting process. As an example, the influence of the orientation of the spring rate is presented with a sample component here. Furthermore, there will be a prototype implementation and a short validation. Finally, a brief conclusion and an outlook is given.
| Item Type: | Conference or Workshop Item |
|---|---|
| Erschienen: | 2015 |
| Creators: | Arndt, Alexander ; Hackbusch, Heike ; Anderl, Reiner |
| Title: | An Algorithm-Based Method For Process-Specific Three-Dimensional Nesting For Additive Manufacturing Processes |
| Language: | English |
| Abstract: | To achieve optimal and high-quality results through additive manufacturing, the process- and technology-specific orientation and positioning of components within the virtual space, the so-called nesting, is essential. Primarily the nesting step is examined in this paper. From a scientific perspective it is a matter of examining this process and furthermore to analyze the optimal insertion of supporting structures, since the critical machine-specific parameters have been insufficiently studied. Within this paper a new multi-criteria optimization based on a conceptual algorithm is proposed. The most important point is the consideration of a technical and not only geometric nesting process. The objective is the demonstration of restrictions and boundary conditions and a first developing for a new approach for the nesting process. As an example, the influence of the orientation of the spring rate is presented with a sample component here. Furthermore, there will be a prototype implementation and a short validation. Finally, a brief conclusion and an outlook is given. |
| Place of Publication: | Austin, Texas |
| Divisions: | 16 Department of Mechanical Engineering > Department of Computer Integrated Design (DiK) (from 01.09.2022 renamed "Product Life Cycle Management") 16 Department of Mechanical Engineering |
| Event Title: | 26th Solid Freeform Fabrication Symposium 2015 |
| Event Location: | Austin, Texas |
| Event Dates: | 10.08.-12.08.2015 |
| Date Deposited: | 04 Sep 2015 11:23 |
| PPN: | |
| Export: | |
| Suche nach Titel in: | TUfind oder in Google |
 |
Send an inquiry |
Options (only for editors)
 |
Show editorial Details |
Drucken
Impressum