Using PET-G to Design an Underwater Rover Through 3D PrintingTtechnology

Grigore, Lucian Stefanita; Stefan, Amado-George; Orban, Octavian

Lucian Stefanita Grigore, Amado-George Stefan, Octavian Orban

Using PET-G to Design an Underwater Rover Through 3D PrintingTtechnology

Abstract:
The development of 3D printing technologies has gained considerable momentum. Almost every technical-scientific field uses this technology. The technology of 3D printing thermoplastic materials (or fusible filaments - FFF), is based on the realization of the parts by depositing successive layers of extruded filament at temperatures corresponding to the viscous aggregation state. One of the research activities of the CERAS research center is the realization of collaborative drone systems, drones capable of moving in each of the three unstructured environments: aerial, terrestrial aquatic / underwater. This paper presents a study on the choice of the type of thermoplastic material, for making the structural elements (chassis) of an underwater Rover. The need for this study arose from the fact that the design and construction of underwater vehicles is generally demanding. The materials must be characterized by resistance to compression / stretching / shearing, as in underwater environments the existence of currents, pressures (with increasing depth of immersion). Also, the materials must be chemically neutral, because in aquatic environments we can find various chemicals spilled in water (intentional or not) and finally salinity.

Keywords:
Plastic material; 3D printing; PET-G; PLA; Fused filament fabrication FFF; Mathematical model; Experimental tests

Issue: 2020 Volume 57, Issue 3

Pages: 189-201

Publication date: 2020/9/30

https://doi.org/10.37358/MP.20.3.5393

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This article is published under the Creative Commons Attribution 4.0 International License

Citation Styles

Cite this article as:
GRIGORE, L.S., STEFAN, A., ORBAN, O., Using PET-G to Design an Underwater Rover Through 3D PrintingTtechnology, Mater. Plast., 57(3), 2020, 189-201. https://doi.org/10.37358/MP.20.3.5393

Vancouver
Grigore LS, Stefan A, Orban O. Using PET-G to Design an Underwater Rover Through 3D PrintingTtechnology. Mater. Plast.[internet]. 2020 Jul;57(3):189-201. Available from: https://doi.org/10.37358/MP.20.3.5393

APA 6th edition
Grigore, L.S., Stefan, A. & Orban, O. (2020). Using PET-G to Design an Underwater Rover Through 3D PrintingTtechnology. Materiale Plastice, 57(3), 189-201. https://doi.org/10.37358/MP.20.3.5393

Harvard
Grigore, L.S., Stefan, A., Orban, O. (2020). 'Using PET-G to Design an Underwater Rover Through 3D PrintingTtechnology', Materiale Plastice, 57(3), pp. 189-201. https://doi.org/10.37358/MP.20.3.5393

IEEE
L.S. Grigore, A. Stefan, O. Orban, "Using PET-G to Design an Underwater Rover Through 3D PrintingTtechnology". Materiale Plastice, vol. 57, no. 3, pp. 189-201, 2020. [online]. https://doi.org/10.37358/MP.20.3.5393

Text
Lucian Stefanita Grigore, Amado-George Stefan, Octavian Orban,
Using PET-G to Design an Underwater Rover Through 3D PrintingTtechnology,
Materiale Plastice,
Volume 57, Issue 3,
2020,
Pages 189-201,
ISSN 2668-8220,
https://doi.org/10.37358/MP.20.3.5393.
(https://revmaterialeplastice.ro/Articles.asp?ID=5393)
Keywords: Plastic material; 3D printing; PET-G; PLA; Fused filament fabrication FFF; Mathematical model; Experimental tests

RIS
TY - JOUR
T1 - Using PET-G to Design an Underwater Rover Through 3D PrintingTtechnology
A1 - Grigore, Lucian Stefanita
A2 - Stefan, Amado-George
A3 - Orban, Octavian
JF - Materiale Plastice
JO - Mater. Plast.
PB - Materiale Plastice SRL
SN - 2668-8220
Y1 - 2020
VL - 57
IS - 3
SP - 189
EP - 201
UR - https://doi.org/10.37358/MP.20.3.5393
KW - Plastic material
KW - 3D printing
KW - PET-G
KW - PLA
KW - Fused filament fabrication FFF
KW - Mathematical model
KW - Experimental tests
ER -

BibTex
@article{MatPlast2020P189,
author = {Grigore Lucian Stefanita and Stefan Amado-George and Orban Octavian},
title = {Using PET-G to Design an Underwater Rover Through 3D PrintingTtechnology},
journal = {Materiale Plastice},
volume = {57},
number = {3},
pages = {189-201},
year = {2020},
issn = {2668-8220},
doi = {https://doi.org/10.37358/MP.20.3.5393},
url = {https://revmaterialeplastice.ro/Articles.asp?ID=5393}
}

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