Modelización numérica del proceso de fractura a tracción en probetas axisimétricas de acero perlítico con entalla en forma de “V”

  1. I. Balboa 1
  2. F. J. Ayaso 1
  3. B. González 1
  4. J. C. Matos 1
  5. J. Toribio 1
  1. 1 GIFIE Grupo de Investigación en Fractura e Integridad Estructural, Universidad de Salamanca
Revista:
Revista española de mecánica de la fractura

ISSN: 2792-4246

Año de publicación: 2021

Número: 1

Páginas: 93-98

Tipo: Artículo

Otras publicaciones en: Revista española de mecánica de la fractura

Resumen

This paper is focused on the numerical modelling of the tensile fracture process in notched samples of progressively drawn pearlitic steel. Different “V”-notches samples were used in order to generate distinct triaxial states (constraint) in the vicinity of the notch tip. The wires used in this work were taken from diverse stages of a real drawing chain, including the initial hot rolled bar (not cold drawn), the commercial prestressing steel wire (heavily drawn) and two intermediate steps of the manufacturing process by means of strain hardening. To this end, the finite element method (FEM) in elastic-plastic regime with large strains was used. Different internal variables (axial stress, hydrostatic stress, effective or equivalent stress in the von Mises sense, triaxiality and equivalent plastic strain) were analyzed to establish the stress-strain state in the sample.