Evaluation of the influence of build and print orientations of unmanned aerial vehicle parts fabricated using fused deposition modeling process

The principal objective of this study is to provide an insight into the simulation of fused deposition modeling (FDM) parts considering the influence of build and print orientations. The elastic modulus, strength and Poisson's ratio at different build and print orientations are obtained by perf...

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Main Authors: Ravindrababu, Suraj, Govdeli, Yunus, Wong, Zhuo Wei, Kayacan, Erdal
Other Authors: School of Mechanical and Aerospace Engineering
Format: Article
Language:English
Published: 2020
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Online Access:https://hdl.handle.net/10356/138769
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1387692021-05-01T20:12:21Z Evaluation of the influence of build and print orientations of unmanned aerial vehicle parts fabricated using fused deposition modeling process Ravindrababu, Suraj Govdeli, Yunus Wong, Zhuo Wei Kayacan, Erdal School of Mechanical and Aerospace Engineering Singapore Centre for 3D Printing Engineering::Mechanical engineering Fused Deposition Modeling Mechanical Behaviour The principal objective of this study is to provide an insight into the simulation of fused deposition modeling (FDM) parts considering the influence of build and print orientations. The elastic modulus, strength and Poisson's ratio at different build and print orientations are obtained by performing uniaxial tensile tests. Based on the results, an appropriate material model is formed and validated by conducting flexural tests on a flat and curved layer FDM (CLFDM) parts fabricated in various print and build orientations. It is found that the influence of the print orientation or different raster angle is minimal and an averaged isotropic material model can be used to simulate parts in a particular build orientation. The build orientation influences the elastic mechanical response of the flat and CLFDM parts largely. A case study on a flying wing unmanned aerial vehicle (FW-UAV) is presented to analyze the contribution of the build orientation on the strength of the structure. The case study shows that the effect of build orientation in some instances might not be critical and a thorough understanding of the loads interacting with the part is necessary before analyzing the building parameters. NRF (Natl Research Foundation, S’pore) Accepted version 2020-05-12T08:26:30Z 2020-05-12T08:26:30Z 2018 Journal Article Ravindrababu, S., Govdeli, Y., Wong, Z. W., & Kayacan, E. (2018). Evaluation of the influence of build and print orientations of unmanned aerial vehicle parts fabricated using fused deposition modeling process. Journal of Manufacturing Processes, 34, 659-666. doi:10.1016/j.jmapro.2018.07.007 1526-6125 https://hdl.handle.net/10356/138769 10.1016/j.jmapro.2018.07.007 2-s2.0-85050133177 34 659 666 en Journal of Manufacturing Processes © 2018 The Society of Manufacturing Engineers. All rights reserved. This paper was published by Elsevier Ltd in Journal of Manufacturing Processes and is made available with permission of The Society of Manufacturing Engineers. application/pdf
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Engineering::Mechanical engineering
Fused Deposition Modeling
Mechanical Behaviour
spellingShingle Engineering::Mechanical engineering
Fused Deposition Modeling
Mechanical Behaviour
Ravindrababu, Suraj
Govdeli, Yunus
Wong, Zhuo Wei
Kayacan, Erdal
Evaluation of the influence of build and print orientations of unmanned aerial vehicle parts fabricated using fused deposition modeling process
description The principal objective of this study is to provide an insight into the simulation of fused deposition modeling (FDM) parts considering the influence of build and print orientations. The elastic modulus, strength and Poisson's ratio at different build and print orientations are obtained by performing uniaxial tensile tests. Based on the results, an appropriate material model is formed and validated by conducting flexural tests on a flat and curved layer FDM (CLFDM) parts fabricated in various print and build orientations. It is found that the influence of the print orientation or different raster angle is minimal and an averaged isotropic material model can be used to simulate parts in a particular build orientation. The build orientation influences the elastic mechanical response of the flat and CLFDM parts largely. A case study on a flying wing unmanned aerial vehicle (FW-UAV) is presented to analyze the contribution of the build orientation on the strength of the structure. The case study shows that the effect of build orientation in some instances might not be critical and a thorough understanding of the loads interacting with the part is necessary before analyzing the building parameters.
author2 School of Mechanical and Aerospace Engineering
author_facet School of Mechanical and Aerospace Engineering
Ravindrababu, Suraj
Govdeli, Yunus
Wong, Zhuo Wei
Kayacan, Erdal
format Article
author Ravindrababu, Suraj
Govdeli, Yunus
Wong, Zhuo Wei
Kayacan, Erdal
author_sort Ravindrababu, Suraj
title Evaluation of the influence of build and print orientations of unmanned aerial vehicle parts fabricated using fused deposition modeling process
title_short Evaluation of the influence of build and print orientations of unmanned aerial vehicle parts fabricated using fused deposition modeling process
title_full Evaluation of the influence of build and print orientations of unmanned aerial vehicle parts fabricated using fused deposition modeling process
title_fullStr Evaluation of the influence of build and print orientations of unmanned aerial vehicle parts fabricated using fused deposition modeling process
title_full_unstemmed Evaluation of the influence of build and print orientations of unmanned aerial vehicle parts fabricated using fused deposition modeling process
title_sort evaluation of the influence of build and print orientations of unmanned aerial vehicle parts fabricated using fused deposition modeling process
publishDate 2020
url https://hdl.handle.net/10356/138769
_version_ 1698713663717769216