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Materiale Plastice
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https://doi.org/10.37358/Mat.Plast.1964

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Materiale Plastice (Mater. Plast.), Year 2017, Volume 54, Issue 1, 98-102

https://doi.org/10.37358/MP.17.1.4794

Roxana Miclaus, Angela Repanovici, Nadinne Roman

Biomaterials: Polylactic Acid and 3D Printing Processes for Orthosis and Prosthesis


Abstract:
Since the development of 3D printing, over the past decades, the domain of application has evolved significantly! Concerning the orthosis and prosthesis manufacturing, the 3D printing offers many possibilities for developing new medical devices for people with disabilities. Our paper wish to synthetize the main 3D printing methods and the biomaterial properties which can be used in orthosis and prosthesis manufacturing, like polylactic acid or acrylonitrile butadiene styrene. Fused Deposition Modeling and Stereo lithography are most used for medical devices manufacturing and usually using polylactic acid, considering the properties of this polymer and de organic componence.


Keywords:
biomaterials; 3D printing; medical rehabilitation; polylactic acid

Issue: 2017 Volume 54, Issue 1
Pages: 98-102
Publication date: 2017/3/30
https://doi.org/10.37358/MP.17.1.4794
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This article is published under the Creative Commons Attribution 4.0 International License
Citation Styles
Cite this article as:
MICLAUS, R., REPANOVICI, A., ROMAN, N., Biomaterials: Polylactic Acid and 3D Printing Processes for Orthosis and Prosthesis, Mater. Plast., 54(1), 2017, 98-102.

Vancouver
Miclaus R, Repanovici A, Roman N. Biomaterials: Polylactic Acid and 3D Printing Processes for Orthosis and Prosthesis. Mater. Plast.[internet]. 2017 Jan;54(1):98-102. Available from: https://doi.org/10.37358/MP.17.1.4794


APA 6th edition
Miclaus, R., Repanovici, A. & Roman, N. (2017). Biomaterials: Polylactic Acid and 3D Printing Processes for Orthosis and Prosthesis. Materiale Plastice, 54(1), 98-102. https://doi.org/10.37358/MP.17.1.4794


Harvard
Miclaus, R., Repanovici, A., Roman, N. (2017). 'Biomaterials: Polylactic Acid and 3D Printing Processes for Orthosis and Prosthesis', Materiale Plastice, 54(1), pp. 98-102. https://doi.org/10.37358/MP.17.1.4794


IEEE
R. Miclaus, A. Repanovici, N. Roman, "Biomaterials: Polylactic Acid and 3D Printing Processes for Orthosis and Prosthesis". Materiale Plastice, vol. 54, no. 1, pp. 98-102, 2017. [online]. https://doi.org/10.37358/MP.17.1.4794


Text
Roxana Miclaus, Angela Repanovici, Nadinne Roman,
Biomaterials: Polylactic Acid and 3D Printing Processes for Orthosis and Prosthesis,
Materiale Plastice,
Volume 54, Issue 1,
2017,
Pages 98-102,
ISSN 2668-8220,
https://doi.org/10.37358/MP.17.1.4794.
(https://revmaterialeplastice.ro/Articlegs.asp?ID=4794)
Keywords: biomaterials; 3D printing; medical rehabilitation; polylactic acid


RIS
TY - JOUR
T1 - Biomaterials: Polylactic Acid and 3D Printing Processes for Orthosis and Prosthesis
A1 - Miclaus, Roxana
A2 - Repanovici, Angela
A3 - Roman, Nadinne
JF - Materiale Plastice
JO - Mater. Plast.
PB - Materiale Plastice SRL
SN - 2668-8220
Y1 - 2017
VL - 54
IS - 1
SP - 98
EP - 102
UR - https://doi.org/10.37358/MP.17.1.4794
KW - biomaterials
KW - 3D printing
KW - medical rehabilitation
KW - polylactic acid
ER -


BibTex
@article{MatPlast2017P98,
author = {Miclaus Roxana and Repanovici Angela and Roman Nadinne},
title = {Biomaterials: Polylactic Acid and 3D Printing Processes for Orthosis and Prosthesis},
journal = {Materiale Plastice},
volume = {54},
number = {1},
pages = {98-102},
year = {2017},
issn = {2668-8220},
doi = {https://doi.org/10.37358/MP.17.1.4794},
url = {https://revmaterialeplastice.ro/Articlegs.asp?ID=4794}
}
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