Journal Published Online: 16 December 2022
Volume 51, Issue 5

Mechanical Testing of Three-Dimensional Printed Acrylonitrile Butadiene Styrene under Various Strain Rates

CODEN: JTEVAB

Abstract

Mechanical behavior of acrylonitrile butadiene styrene (ABS) was investigated in this study with experimental and numerical studies. Specimens were fabricated by using a three-dimensional (3D) printer with horizontal and vertical deposition directions. Quasistatic tension tests at strain rates of 0.01/s and 0.1/s and dynamic compression tests at strain rates of 3,500/s, 6,000/s, and 7,500/s were performed at room temperature. Dynamic deformation behavior of test specimen was investigated via 3D Lagrangian method in LS-Dyna software with Johnson-Cook and Piecewise Linear Plasticity material models. Simulations were conducted with an adequate element size determined by a mesh dependency study. Johnson-Cook strength model parameters of ABS were determined and validated by simulation studies. Experimental results showed that increase of strain rate at tension and compression conditions led to increase of strengths for both vertically and horizontally deposited specimens. Under low strain rates, specimens were exposed to strain softening followed by strain hardening. However, under high strain rates, strain softening was observed after maximum stress was achieved. Strain softening behavior observed in dynamic compression tests was attributed to adiabatic heating in the specimen during testing. Furthermore, it has been observed that deposition direction of specimen with regard to applied load direction is significant for the mechanical strength of the material in quasistatic and dynamic tests. Simulation results for dynamic compression tests under high strain rates showed good agreement with test results in terms of final dimensions of test specimens. Results showed that Johnson-Cook material model is more accurate for modelling dynamic behavior of ABS than Piecewise Linear Plasticity model. Additionally, higher error values were observed with increasing strain rates in simulations.

Author Information

Keles, Mucahid Furkan
The Scientific and Technological Research Council of Türkiye (TUBITAK) Defense Industries Research and Development Institute, Mamak, Ankara, Turkey
Hafizoglu, Hakan
The Scientific and Technological Research Council of Türkiye (TUBITAK) Defense Industries Research and Development Institute, Mamak, Ankara, Turkey
Konokman, Huseyin Emrah
The Scientific and Technological Research Council of Türkiye (TUBITAK) Defense Industries Research and Development Institute, Mamak, Ankara, Turkey
Karadeniz, Eda
The Scientific and Technological Research Council of Türkiye (TUBITAK) Defense Industries Research and Development Institute, Mamak, Ankara, Turkey
Pages: 19
Price: $25.00
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Stock #: JTE20220397
ISSN: 0090-3973
DOI: 10.1520/JTE20220397