The Use of Acoustic Emission to Determine the Safe Range of Operational Stresses of 3D-Printed ABS Polymer Components
Krzysztof Dudzik, Patryk Krawulski, Robert Starosta, Burkhard Ziegler

TL;DR
This study uses sound emissions during stress tests to determine safe stress levels for 3D-printed ABS polymer parts.
Contribution
The novel use of acoustic emission to detect early-stage material failure in 3D-printed components is introduced.
Findings
Changes in printing parameters significantly affect mechanical properties of 3D-printed ABS components.
Acoustic emission detects the initial destruction phase 2–5 seconds earlier than traditional tensile tests.
Critical stress for the tested components is approximately 6 MPa, beyond which unsafe operation risks arise.
Abstract
This work proposes using acoustic emission during a static tensile test to determine the stress characteristics of the initial phase of the destruction process of elements printed using the material extrusion (MEX) additive method at various printing parameters. The changed parameters were layer height, print orientation, filling ratio, and nozzle temperature. ABS material was chosen for printing. The experiment was carried out according to the Taguchi plan. The analysis of the results showed that changes in printing parameters significantly impact the mechanical properties of the tested elements. The parameter that had the greatest impact on strength was the filling ratio. Maximum tensile strength was achieved with the following printing parameters: 0.24 mm layer, 30°, 100% infill, 275 °C, concentric pattern. The results can be the basis for optimizing the additive printing process and…
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Taxonomy
TopicsAdditive Manufacturing and 3D Printing Technologies · Additive Manufacturing Materials and Processes · Engineering Technology and Methodologies
