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Flexible joints performance assessment of additive manufacturing FDM 3D printed TPU

Daniel Rodríguez-Flores, Héctor Cervantes-Culebro, J Enrique Chong-Quero and Carlos A Cruz-Villar

PLOS ONE, 2025, vol. 20, issue 11, 1-17

Abstract: Given the increasing adoption of flexible 3D-printed joints in the field of robotics, it is essential to characterize the stiffness/spring coefficient and damping of printed specimens to understand the effects of various processing parameters and their interactions under different loading conditions. This study aims to research the effects of 3D-printed parameters and geometric dimensions, i.e, printing density, layer thickness, raster angle, length, width, and height. The Box-Benken design of experiments is conducted to obtain 44 different parametric combinations to characterize the damping and spring coefficients CF, KF, 𝐂τ, 𝐊τ under a dynamic load. The damping and spring coefficients are characterized using the minimum squared method. Depending on the force decomposition, the damping and spring coefficients are different in each direction. To analyse the experimental results, a MANOVA, ANOVA analysis, and a correlation heatmap are used to show that the density, layer thickness, and width have the most influence on the damping. In contrast, raster angle has the most influence on the spring coefficient. Finally, the results show that the geometric and 3D-printing parameters play a significant role in the mechanical behaviour of flexible joints. The technology can be used in the design of robots that require energy-saving and releasing mechanisms, and to avoid the use of ball bearings under a dynamic load.

Date: 2025
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Persistent link: https://EconPapers.repec.org/RePEc:plo:pone00:0336401

DOI: 10.1371/journal.pone.0336401

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