Application of 3D printing technology in aerodynamic study
K Olasek, P Wiklak - Journal of Physics: Conference Series, 2014 - iopscience.iop.org
K Olasek, P Wiklak
Journal of Physics: Conference Series, 2014•iopscience.iop.orgAbstract 3D printing, as an additive process, offers much more than traditional machining
techniques in terms of achievable complexity of a model shape. That fact was a motivation to
adapt discussed technology as a method for creating objects purposed for aerodynamic
testing. The following paper provides an overview of various 3D printing techniques. Four
models of a standard NACA0018 aerofoil were manufactured in different materials and
methods: MultiJet Modelling (MJM), Selective Laser Sintering (SLS) and Fused Deposition …
techniques in terms of achievable complexity of a model shape. That fact was a motivation to
adapt discussed technology as a method for creating objects purposed for aerodynamic
testing. The following paper provides an overview of various 3D printing techniques. Four
models of a standard NACA0018 aerofoil were manufactured in different materials and
methods: MultiJet Modelling (MJM), Selective Laser Sintering (SLS) and Fused Deposition …
Abstract
3D printing, as an additive process, offers much more than traditional machining techniques in terms of achievable complexity of a model shape. That fact was a motivation to adapt discussed technology as a method for creating objects purposed for aerodynamic testing. The following paper provides an overview of various 3D printing techniques. Four models of a standard NACA0018 aerofoil were manufactured in different materials and methods: MultiJet Modelling (MJM), Selective Laser Sintering (SLS) and Fused Deposition Modeling (FDM). Various parameters of the models have been included in the analysis: surface roughness, strength, details quality, surface imperfections and irregularities as well as thermal properties.
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