Research and Implementation of Axial 3D Printing Method for PLA Pipes

Publikationen: Beitrag in FachzeitschriftArtikelForschung(peer-reviewed)

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Research and Implementation of Axial 3D Printing Method for PLA Pipes. / Zhang, Haiguang; Zhong, Wenguang; Hu, Qingxi et al.
in: Applied Sciences : open access journal, Jahrgang 10.2020, Nr. 13, 4680, 07.07.2020.

Publikationen: Beitrag in FachzeitschriftArtikelForschung(peer-reviewed)

Vancouver

Zhang H, Zhong W, Hu Q, Aburaia M, Gonzalez-Gutierrez J, Lammer H. Research and Implementation of Axial 3D Printing Method for PLA Pipes. Applied Sciences : open access journal. 2020 Jul 7;10.2020(13):4680. doi: 10.3390/app10134680

Author

Zhang, Haiguang ; Zhong, Wenguang ; Hu, Qingxi et al. / Research and Implementation of Axial 3D Printing Method for PLA Pipes. in: Applied Sciences : open access journal. 2020 ; Jahrgang 10.2020, Nr. 13.

Bibtex - Download

@article{5b53a12cd8e047bc91567e6fb53b184d,
title = "Research and Implementation of Axial 3D Printing Method for PLA Pipes",
abstract = "Additive manufacturing has been applied in many fields, but its layer-by-layer fabrication process leads to a weak inter-layer bond strength of printed parts, so it cannot meet the higher requirements for mechanical properties of the industry. At present, many researchers are studying the printing path planning method to improve the mechanical properties of printed parts. This paper proposes a method to plan the printing path according to the actual stress of pipe parts, and introduces the realization process of an algorithm in detail, and obtains the printing control G-code. Additionally, a5-axis material extrusion platform was built to realize the printing of polylactic acid pipes with plane and space skeleton curves, respectively, which verified the feasibility and applicability of the method and the correctness of the planning path with standard material extrusion filaments. Finally, the tensile and bending experiments prove that axial printing enhances the mechanical properties of pipe parts.",
keywords = "Fused Filament Fabrication, Additive Manufacturing, 5-axis platform, PLA",
author = "Haiguang Zhang and Wenguang Zhong and Qingxi Hu and Mohamed Aburaia and Joamin Gonzalez-Gutierrez and Herfried Lammer",
year = "2020",
month = jul,
day = "7",
doi = "10.3390/app10134680",
language = "English",
volume = "10.2020",
journal = "Applied Sciences : open access journal",
issn = "2076-3417",
publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",
number = "13",

}

RIS (suitable for import to EndNote) - Download

TY - JOUR

T1 - Research and Implementation of Axial 3D Printing Method for PLA Pipes

AU - Zhang, Haiguang

AU - Zhong, Wenguang

AU - Hu, Qingxi

AU - Aburaia, Mohamed

AU - Gonzalez-Gutierrez, Joamin

AU - Lammer, Herfried

PY - 2020/7/7

Y1 - 2020/7/7

N2 - Additive manufacturing has been applied in many fields, but its layer-by-layer fabrication process leads to a weak inter-layer bond strength of printed parts, so it cannot meet the higher requirements for mechanical properties of the industry. At present, many researchers are studying the printing path planning method to improve the mechanical properties of printed parts. This paper proposes a method to plan the printing path according to the actual stress of pipe parts, and introduces the realization process of an algorithm in detail, and obtains the printing control G-code. Additionally, a5-axis material extrusion platform was built to realize the printing of polylactic acid pipes with plane and space skeleton curves, respectively, which verified the feasibility and applicability of the method and the correctness of the planning path with standard material extrusion filaments. Finally, the tensile and bending experiments prove that axial printing enhances the mechanical properties of pipe parts.

AB - Additive manufacturing has been applied in many fields, but its layer-by-layer fabrication process leads to a weak inter-layer bond strength of printed parts, so it cannot meet the higher requirements for mechanical properties of the industry. At present, many researchers are studying the printing path planning method to improve the mechanical properties of printed parts. This paper proposes a method to plan the printing path according to the actual stress of pipe parts, and introduces the realization process of an algorithm in detail, and obtains the printing control G-code. Additionally, a5-axis material extrusion platform was built to realize the printing of polylactic acid pipes with plane and space skeleton curves, respectively, which verified the feasibility and applicability of the method and the correctness of the planning path with standard material extrusion filaments. Finally, the tensile and bending experiments prove that axial printing enhances the mechanical properties of pipe parts.

KW - Fused Filament Fabrication

KW - Additive Manufacturing

KW - 5-axis platform

KW - PLA

UR - http://www.scopus.com/inward/record.url?scp=85087764701&partnerID=8YFLogxK

U2 - 10.3390/app10134680

DO - 10.3390/app10134680

M3 - Article

VL - 10.2020

JO - Applied Sciences : open access journal

JF - Applied Sciences : open access journal

SN - 2076-3417

IS - 13

M1 - 4680

ER -