Publication detail

Monotonic Testing of 3D Printed SS316L under Multiaxial Loading

KOŘÍNEK, M. HALAMA, R. FOJTÍK, F. PAGÁČ, M. KRČEK, J. ŠEBEK, F. KRZIKALLA, D.

Original Title

Monotonic Testing of 3D Printed SS316L under Multiaxial Loading

Type

conference paper

Language

English

Original Abstract

The aim of this work was to monitor the behaviour of 316L stainless steel produced by 3D printing. The material was tested in the state “as printed”. Digital Image Correlation measurements were used for 4 types of notches. The behaviour of these notches under monotonic loading was investigated in two loading paths – tension and torsion. Based on experimental data, two material models were used in finite element analyses. Subsequently, the load-deformation responses of simulations and experiments were compared. Ductility of 3D printed specimens in “as printed” state is also compared with 3D printed machined samples and samples produced by conventional methods.

Keywords

Stainless steel S316L; 3D printing of metal; Multiaxial monotonic loading; Digital Image Correlation Method; Hill yield criterion; isotropic hardening; FEM simulation

Authors

KOŘÍNEK, M.; HALAMA, R.; FOJTÍK, F.; PAGÁČ, M.; KRČEK, J.; ŠEBEK, F.; KRZIKALLA, D.

Released

19. 10. 2020

ISBN

978-80-248-4451-0

Book

Experimental Stress Analysis 2020

Pages from

213

Pages to

224

Pages count

12

BibTex

@inproceedings{BUT171100,
  author="Michal {Kořínek} and Radim {Halama} and František {Fojtík} and Marek {Pagáč} and Jiří {Krček} and František {Šebek} and David {Krzikalla}",
  title="Monotonic Testing of 3D Printed SS316L under Multiaxial Loading",
  booktitle="Experimental Stress Analysis 2020",
  year="2020",
  pages="213--224",
  isbn="978-80-248-4451-0"
}