PREREQUISITES FOR THE IMPLEMENTATION OF 3D TECHNOLOGY FOR THE MANUFACTURE OF METAL PRODUCTS AND EXAMPLES OF ITS APPLICATION
DOI:
https://doi.org/10.31649/2311-1429-2023-2-35-41Keywords:
3D technologies, additive manufacturing, Industry 4.0, metal construction printing, mold printing, 3D milling of a foundry pattern, Lost Foam castingAbstract
A brief overview of modern additive manufacturing equipment, 3D technologies and leading companies in this field is provided. Such production for the modeling and optimization of casting structures and the production of metal products corresponds to the concept of Industry 4.0, aimed at obtaining competitive products quickly, conveniently, variably, with minimal personnel and the desire to exclude the subject from the technological cycle of production, close to the requirements of the consumer, including industrial and construction hardware. 3D technology, which includes the optimization of structures by digital methods, is an effective means of reducing the cost and weight of metal structures, reducing metal consumption. At the current transition stage to mass additive production, there is a need for a gradual combination of digital and traditional technologies in the process of industrial development on an innovative basis, which is an effective mechanism for overcoming the crisis phenomena of the war and post-war periods. In this regard, the use of 3D technology for obtaining cast metal structures, in particular those made by casting according to gasifying models, has significant opportunities. There are three examples of the application of 3D technology for printing metal structures, in the process of manufacturing lightweight openwork castings, which includes printing a foundry sand mold, and during 3D milling of a one-time foundry pattern from polystyrene foam. As one of the key drivers of Industry 4.0, 3D technologies, according to experts, are capable of standing on a par with traditional technologies, and in the near future, replacing at least half of the existing machine park and procurement equipment. There is a lot of talk about what is holding back the active use of 3D printers by enterprises, but the most common limitation is the unwillingness of the enterprises themselves to rethink, engineer their production, put it on the rails of digital technologies; certainly, it is difficult, but necessary to maintain their competitiveness.
References
Hnatush V. A., Doroshenko V. S. Prospects for the development of the casting market in the context of "Industry 4.0". Lyttya Ukrayiny. 2017. No. 6. S. 18-21.
Shynsʹkyy O.Y. Doroshenko V.S. Yanchenko O.B. Prospects for the production of cast lightweight metal structures for the construction of modular buildings. Modern technologies, materials and structures in construction. Volume 33, no. 2 (2022). S. 90-98.
Doroshenko V. S. Improvement of additive technologies for modeling and production of metal castings. Lyttya Ukrayiny. 2018. No. 6. S. 14-19.
Stratasys Showcases New H2000 Infinite Build 3D Printer to Prospects. August 3, 2017. URL: https://3dprinting.com/news/stratasys-showcases-new-h2000-infinite-build-printer-potential-buyers/.
The factory of the future is here. URL: https://www.stratasys.com/en/demonstrators/.
Gamme de machines de fabrication additive métal FormUP & cellules de travail Flex Care System. URL: http://www.axena.fr/portfolio-items/addup-axena-design-equipements-industriels/.
Hnatush V. A., Doroshenko V. S. Directions for improving foundry production in the context of "Industry 4.0". Industry in focus. 2017. No. 12. S. 38-42.
Shannon Wetzel. TEI swing arm wins casting of the year. Modern Casting. 2018. No. 5. S. 28-31.
La pièce de l'année 2018 pour l'AFS. 29.05.2018. URL: http://www.fonderie-piwi.fr/post/2018/04/26/La-pi%C3%A8ce-de-l-ann%C3%A9e-2018-pour-l-AFS.
Doroshenko V. S. Improvement of additive technologies for modeling and production of metal castings. Lyttya Ukrayiny. 2018. No. 6. S. 14-19.
Downloads
-
pdf (Українська)
Downloads: 0