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Polymer Science, Series D

Published in:

01-03-2023

Simulation of Optimal 3D Printing Parameters

Authors: I. S. Nefelov, N. I. Baurova

Published in: Polymer Science, Series D | Issue 1/2023

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Abstract

The algorithms are described for the operation of software for determining optimal parameters of 3D printing. To confirm the efficiency of the developed algorithms and mathematical model, the experimental tensile strength of a detail made of ABS plastic has been compared with one calculated using the given printing parameters. The application of the developed software makes it possible to set optimal printing parameters and obtain products with a predetermined safety coefficient.

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A. A. Popovich, “Additive technologies as a new way to create promising functional materials,” Metalloved. Termich. Obrabotka Metall., No. 1, 19–25 (2020).

S.V. Kondrashov, “Influence of technological modes of FDM printing and the composition of used materials on the physical and mechanical characteristics of FDM models (review),” Trudy VIAM, No. 10. 34–39 (2019).

A. I. Rudskoi and N. I. Baurova, “Technological heredity during the production and operation of structural materials,” Russ. Metall. 13, 1378–1383 (2019).CrossRef

N. I. Baurova, V. A. Zorin, and V. M. Prikhodko, “Technological heredity and identification of technological processes,” Polym. Sci., Ser. D 8, 219–222 (2015).

I. S. Nefelov and N. I. Baurova, “Durability characterization of joints of plastic products exposed to negative temperatures fabricated using additive technologies, Polym. Sci., Ser. D 14 (3), 413–416 (2021).

I. S. Nefelov and N. I. Baurova, “The research of the influence of the parameters of 3D printing on the strength characteristics of plastic products,” Polym. Sci., Ser. D 15, 663–666 (2022).

A. A. Myshechkin and A.A. Shumilo, “Study of the influence of FDM technology modes on the properties of products,” in Proceedings of the Conference “Informatics and Technology. Innovative Technologies in Industry and Informatics” (2019), pp. 276–280.

V. M. Fedulov, Yu. S. Fedulova, and E. E. Kulik, “Influence of technological modes in FDM Printing on the surface quality of an ABS and PLA part,” Vest. Rybinsk Gos. Aviats. Tekhnol. Akad., No. 4, 162–167 (2017).

A. V. Chabanenko, “Modeling of 3D printing processes in quality management of building a physical model of an object,” Avtomatizatsiya i Modelirovanie v Proekt. Upravl., No. 1, 10–15 (2019).

10.

P. B. Novikov, “The influence of different types of filament on the quality of manufactured products and work with a 3D printer,” in Proceedings of the 18th International Scientific and Technical Conference of Students and Postgraduates “Information Technology, Energy and Economics” (2021), pp. 166–169.

11.

E. Hekman and M. De Rooij, “Frictional characteristics of fusion deposition modeling (FDM) manufactured surfaces,” Rapid Prototyping J. 26, 1095–1102 (2020).CrossRef

12.

S. N. Cerda-Avila, H. I. Medellin-Castillo, and T. Lim, “An experimental methodology to analyse the structural behaviour of FDM parts with variable process parameters,” Rapid Prototyping J. 26, 1615–1625 (2020).CrossRef

13.

V. A. Zorin, N. I. Baurova, and A. A. Pegachkov, “Assessment of products risks of mechanical engineering by results of diagnosing,” Periodicals Eng. Nat. Sci., No. 7, 287–293 (2019).

Title: Simulation of Optimal 3D Printing Parameters
Authors: I. S. Nefelov
N. I. Baurova
Publication date: 01-03-2023
Publisher: Pleiades Publishing
Published in: Polymer Science, Series D / Issue 1/2023
Print ISSN: 1995-4212
Electronic ISSN: 1995-4220
DOI: https://doi.org/10.1134/S1995421223010197

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