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Examinez les méthodes sélectionnées côte à côte ; les lignes qui diffèrent sont mises en évidence.
| Découpage pour la fabrication additive× | Génération de trajectoire d'outil CNC× | |
|---|---|---|
| Domaine | Fabrication | Fabrication |
| Famille | Process / pipeline | Process / pipeline |
| Année d'origine | 1990s | 1990s |
| Auteur d'origine≠ | Deckard, C. R. et al. | Elbestawi, M. A. et al. |
| Type≠ | Computational method for additive manufacturing | Computational method for manufacturing automation |
| Source fondatrice≠ | Ngo, T. D., Kashani, A., Imbalzano, G., Nguyen, K. T., & Hui, D. (2018). Additive manufacturing (3D printing): A review of materials, methods, applications and challenges. Composites Part B: Engineering, 143, 172-196. DOI ↗ | Elbestawi, M. A., Papazafiriou, T., & Du, R. (1994). In-process detection of tool wear in milling using cutting force signature. International Journal of Machine Tools and Manufacture, 34(4), 555-566. link ↗ |
| Alias≠ | 3D printing slicing, Layer generation, Mesh slicing | NC tool path planning, Toolpath programming |
| Apparentées≠ | 4 | 5 |
| Résumé≠ | Additive manufacturing slicing is the computational process of converting a three-dimensional CAD model into a series of two-dimensional cross-sectional layers that are sequentially built up by 3D printing hardware. Developed during the early maturation of stereolithography and selective laser sintering in the 1990s, this method bridges the gap between digital design and physical fabrication, enabling rapid prototyping and production of complex geometries. | CNC tool path generation is the computational process of determining the precise sequence and trajectory of tool movements required to machine a workpiece on computer numerical control (CNC) machines. Developed from the intersection of numerical control automation and computational geometry in the 1990s, this method translates CAD designs into executable machine instructions, enabling efficient and accurate manufacturing of complex parts. |
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