2021
DOI: 10.32920/ryerson.14664447
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Inverse Identification Of Elastic Moduli For 3D Printed PLA, Using Impulse Excitation Technique (IET)

Abstract: 3D Printing has recently undergone extensive development due to its lower cost and flexibility. A number of studies have been carried out to determine 3D printed material properties. This study focuses on the determination of the dynamic properties for PLA. The PLA material is processed through the popular FDM method with three different build orientations. A vibration experiment is conducted to evaluate the first modal frequency and Young’s modulus. The results are then compared to the FEM modal analysis an… Show more

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“…In this research, we also use PLA specimens for vibration analysis. The properties of the PLA material specimen were deduced from the Impulse Excitation Technique (IET) experiment for each 3D printed specimen [10,12]. The first specimen studied is a cantilever PLA beam, 271mm in length, 30mm in width and 3.51mm in thickness.…”
Section: Manufacturing Of the 3d-printed Of Beamsmentioning
confidence: 99%
“…In this research, we also use PLA specimens for vibration analysis. The properties of the PLA material specimen were deduced from the Impulse Excitation Technique (IET) experiment for each 3D printed specimen [10,12]. The first specimen studied is a cantilever PLA beam, 271mm in length, 30mm in width and 3.51mm in thickness.…”
Section: Manufacturing Of the 3d-printed Of Beamsmentioning
confidence: 99%