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Publication date: 28.10.2023
Evaluate the material Average score: 3 (Всего: 2)
Aleksandr E. Kostiakov
NOChU VO "Moskovskii finansovo-promyshlennyi universitet "Sinergiia" , Москва г

«Analysis of the use of various types of 3D printers in mechanical engineering»

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Relevance. The article discusses the main types of 3D-printers that can be used in mechanical engineering. The analysis of the basic principles of operation, as well as the advantages, disadvantages and features of the use of these types of devices. In the end, the author will consider the possibilities of future research in the field of additive technologies. The purpose of the research. To conduct an in-depth analysis of the use of 3D-printing in mechanical engineering. The purpose of the article is to study the application, advantages and limitations of various types of 3D-printers used in mechanical engineering. It also evaluates factors that influence the choice of printer, such as material compatibility, resolution, print volume and print speed. The study highlights the problems faced when integrating 3D-printing into mechanical engineering. The article concludes with a summary of the main conclusions, a discussion of the implications for management and decision-making, as well as the definition of future research opportunities. The objectives of the study are to identify existing problems in the use of additive technologies in mechanical engineering and to consider possible applications in the future. The results of the study. The study provides an overview of 3D-printing in mechanical engineering, its importance and application. It discusses various types of 3D-printers, their features and capabilities. The article analyzes the use of 3D-printers in mechanical engineering, assesses the advantages, limitations and impact on product quality, production time and economic efficiency. Factors influencing the choice of printer are investigated, such as compatibility of materials and requirements, resolution, print volume, print speed, post-processing and scalability requirements. The study also identifies challenges and future directions of 3D-printing integration, including potential advances in printing technology. In conclusion, the main conclusions are presented, their importance for decision-making in mechanical engineering and recommendations for improving the printer selection process. Future research opportunities are also highlighted.