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Projection-Based Simulation Method for Robotic 3D Printing of Large-Scale Polymer Composite Structures

Authors
Xia, YuenLee, Kil-SungHa, Sung Kyu
Issue Date
Jun-2025
Publisher
MDPI Open Access Publishing
Keywords
large structure 3D printing; fused deposition modeling (FDM); short fiber-reinforced polymer composites; characterization of material properties; projection method
Citation
Polymers, v.17, no.11, pp 1 - 18
Pages
18
Indexed
SCIE
SCOPUS
Journal Title
Polymers
Volume
17
Number
11
Start Page
1
End Page
18
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/207989
DOI
10.3390/polym17111564
ISSN
2073-4360
2073-4360
Abstract
As large-scale additive manufacturing advances, the reliable prediction of the structural behavior of FDM-printed composites is becoming increasingly important. However, existing finite element methods often oversimplify the material anisotropy introduced by the printing path. This study proposes a projection-based method that maps toolpath-defined fiber orientations directly into a finite element model to represent anisotropic mechanical behavior. The mechanical properties of printed carbon fiber-reinforced ABS were experimentally characterized in three directions (UDL, UDT, and UD10). The results confirmed strong anisotropy, with elastic moduli ranging from 3.2 to 9.8 GPa and tensile strengths from 20 to 81 MPa. The shear modulus and strength obtained from the 10 degrees off-axis tensile tests were 1.17 GPa and 10.9 MPa, respectively. This directional data enabled the implementation of the FE model of a 20 m-long printed ship structure. The predicted mid-span deflection (2.19 mm) differed by only 5% from the experimental measurement (2.08 mm). While effective, this method may face challenges with highly irregular geometries. Nevertheless, it offers a scalable approach for the accurate simulation of FDM-printed composites.
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