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Simulation of the strength properties of lattice structures, produced by the method of three-dimensional printing. / Samarkin , A.I.; Samarkina , E.I.; Mikushev , V.M.; Plohov , I.V.

XV International Scientific-Technical Conference “Dynamics of Technical Systems” (DTS-2019). ред. / Vladimir Mladenovic; Pham Dinh Tung; Igor B. Sevostyanov; Tooraj Abbasian Najafabadi; Marko Petkovic. American Institute of Physics, 2019. стр. 040004 ( AIP Conference Proceedings; Том 2188, № 1).

Результаты исследований: Публикации в книгах, отчётах, сборниках, трудах конференцийстатья в сборнике материалов конференцииРецензирование

Harvard

Samarkin , AI, Samarkina , EI, Mikushev , VM & Plohov , IV 2019, Simulation of the strength properties of lattice structures, produced by the method of three-dimensional printing. в V Mladenovic, PD Tung, IB Sevostyanov, TA Najafabadi & M Petkovic (ред.), XV International Scientific-Technical Conference “Dynamics of Technical Systems” (DTS-2019). AIP Conference Proceedings, № 1, Том. 2188, American Institute of Physics, стр. 040004, XV INTERNATIONAL SCIENTIFIC-TECHNICAL CONFERENCE “DYNAMIC OF TECHNICAL SYSTEMS”, Rostov-on-Don, Российская Федерация, 11/09/19. https://doi.org/10.1063/1.5138413

APA

Samarkin , A. I., Samarkina , E. I., Mikushev , V. M., & Plohov , I. V. (2019). Simulation of the strength properties of lattice structures, produced by the method of three-dimensional printing. в V. Mladenovic, P. D. Tung, I. B. Sevostyanov, T. A. Najafabadi, & M. Petkovic (Ред.), XV International Scientific-Technical Conference “Dynamics of Technical Systems” (DTS-2019) (стр. 040004). ( AIP Conference Proceedings; Том 2188, № 1). American Institute of Physics. https://doi.org/10.1063/1.5138413

Vancouver

Samarkin AI, Samarkina EI, Mikushev VM, Plohov IV. Simulation of the strength properties of lattice structures, produced by the method of three-dimensional printing. в Mladenovic V, Tung PD, Sevostyanov IB, Najafabadi TA, Petkovic M, Редакторы, XV International Scientific-Technical Conference “Dynamics of Technical Systems” (DTS-2019). American Institute of Physics. 2019. стр. 040004. ( AIP Conference Proceedings; 1). https://doi.org/10.1063/1.5138413

Author

Samarkin , A.I. ; Samarkina , E.I. ; Mikushev , V.M. ; Plohov , I.V. / Simulation of the strength properties of lattice structures, produced by the method of three-dimensional printing. XV International Scientific-Technical Conference “Dynamics of Technical Systems” (DTS-2019). Редактор / Vladimir Mladenovic ; Pham Dinh Tung ; Igor B. Sevostyanov ; Tooraj Abbasian Najafabadi ; Marko Petkovic. American Institute of Physics, 2019. стр. 040004 ( AIP Conference Proceedings; 1).

BibTeX

@inproceedings{498b483c784042e5a4d1fbc0233c3ed5,
title = "Simulation of the strength properties of lattice structures, produced by the method of three-dimensional printing",
abstract = "When using three-dimensional printing, parts of the structure are made a lattice. On the one hand, it improves printing performance and reduces material consumption, on the other hand, it confronts the designer with a number of problems in terms of assessing the strength properties of such areas. The authors propose to simulate the properties of the lattice regions precisely using an electronic model and calculate, for example, the Young modulus, in order to use a surrogate solid substitute material for modeling in the future, which simplifies the calculations. As a result, the authors obtained dependencies for calculating the parameters of the substitute material for some types of lattices (square and with holes)",
author = "A.I. Samarkin and E.I. Samarkina and V.M. Mikushev and I.V. Plohov",
note = "When using three-dimensional printing, parts of the structure are made a lattice. On the one hand, it improves printing performance and reduces material consumption, on the other hand, it confronts the designer with a number of problems in terms of assessing the strength properties of such areas. The authors propose to simulate the properties of the lattice regions precisely using an electronic model and calculate, for example, the Young modulus, in order to use a surrogate solid substitute material for modeling in the future, which simplifies the calculations. As a result, the authors obtained dependencies for calculating the parameters of the substitute material for some types of lattices (square and with holes); null ; Conference date: 11-09-2019 Through 13-09-2019",
year = "2019",
month = dec,
day = "17",
doi = "https://doi.org/10.1063/1.5138413",
language = "English",
series = " AIP Conference Proceedings",
publisher = "American Institute of Physics",
number = "1",
pages = "040004",
editor = "Mladenovic, {Vladimir } and Tung, {Pham Dinh } and Sevostyanov, {Igor B. } and Najafabadi, {Tooraj Abbasian } and Petkovic, {Marko }",
booktitle = "XV International Scientific-Technical Conference “Dynamics of Technical Systems” (DTS-2019)",
address = "United States",
url = "https://www.conferencedts.com/",

}

RIS

TY - GEN

T1 - Simulation of the strength properties of lattice structures, produced by the method of three-dimensional printing

AU - Samarkin , A.I.

AU - Samarkina , E.I.

AU - Mikushev , V.M.

AU - Plohov , I.V.

N1 - Conference code: XV

PY - 2019/12/17

Y1 - 2019/12/17

N2 - When using three-dimensional printing, parts of the structure are made a lattice. On the one hand, it improves printing performance and reduces material consumption, on the other hand, it confronts the designer with a number of problems in terms of assessing the strength properties of such areas. The authors propose to simulate the properties of the lattice regions precisely using an electronic model and calculate, for example, the Young modulus, in order to use a surrogate solid substitute material for modeling in the future, which simplifies the calculations. As a result, the authors obtained dependencies for calculating the parameters of the substitute material for some types of lattices (square and with holes)

AB - When using three-dimensional printing, parts of the structure are made a lattice. On the one hand, it improves printing performance and reduces material consumption, on the other hand, it confronts the designer with a number of problems in terms of assessing the strength properties of such areas. The authors propose to simulate the properties of the lattice regions precisely using an electronic model and calculate, for example, the Young modulus, in order to use a surrogate solid substitute material for modeling in the future, which simplifies the calculations. As a result, the authors obtained dependencies for calculating the parameters of the substitute material for some types of lattices (square and with holes)

U2 - https://doi.org/10.1063/1.5138413

DO - https://doi.org/10.1063/1.5138413

M3 - Conference contribution

T3 - AIP Conference Proceedings

SP - 040004

BT - XV International Scientific-Technical Conference “Dynamics of Technical Systems” (DTS-2019)

A2 - Mladenovic, Vladimir

A2 - Tung, Pham Dinh

A2 - Sevostyanov, Igor B.

A2 - Najafabadi, Tooraj Abbasian

A2 - Petkovic, Marko

PB - American Institute of Physics

Y2 - 11 September 2019 through 13 September 2019

ER -

ID: 49774310