Publication result detail

Finite Element Analysis of Crack-tip Opening Displacement and Plastic Zones Considering the Cyclic Material Behavior

TINOCO NAVARRO, H.; CARDONA, C.; VOJTEK, T.; HUTAŘ, P.

Original Title

Finite Element Analysis of Crack-tip Opening Displacement and Plastic Zones Considering the Cyclic Material Behavior

English Title

Finite Element Analysis of Crack-tip Opening Displacement and Plastic Zones Considering the Cyclic Material Behavior

Type

Peer-reviewed article not indexed in WoS or Scopus

Original Abstract

Propagation and behavior of fatigue cracks are governed by strain fields in the vicinity of the crack tip. The numerical description of strains in the crack tip presents some challenges in the modelling by the multiscale involved in the fracture analysis. In this study, it is proposed a 2D finite element analysis conducted for fatigue crack propagation experiments (mode I) performed for a railway axle steel EA4T under plane stress conditions. The analysis considers a geometric approach to define a multiscale mesh on a center-crack tension (CCT) specimen for which a nonlinear material model with kinematic hardening was assumed. Crack tip opening displacement (CTOD) and plastic zones were determined for several load levels during loading and unloading states. The results show that the applied correction factors approximate better the crack propagation rate. Furthermore, the quadratic dependence of CTOD with the stress intensity factor was in good agreement with the numerical solutions.

English abstract

Propagation and behavior of fatigue cracks are governed by strain fields in the vicinity of the crack tip. The numerical description of strains in the crack tip presents some challenges in the modelling by the multiscale involved in the fracture analysis. In this study, it is proposed a 2D finite element analysis conducted for fatigue crack propagation experiments (mode I) performed for a railway axle steel EA4T under plane stress conditions. The analysis considers a geometric approach to define a multiscale mesh on a center-crack tension (CCT) specimen for which a nonlinear material model with kinematic hardening was assumed. Crack tip opening displacement (CTOD) and plastic zones were determined for several load levels during loading and unloading states. The results show that the applied correction factors approximate better the crack propagation rate. Furthermore, the quadratic dependence of CTOD with the stress intensity factor was in good agreement with the numerical solutions.

Keywords

Crack-tip opening displacement; plastic zone; finite elment analysis; CTOD; stress intensity factor; crack growth

Key words in English

Crack-tip opening displacement; plastic zone; finite elment analysis; CTOD; stress intensity factor; crack growth

Authors

TINOCO NAVARRO, H.; CARDONA, C.; VOJTEK, T.; HUTAŘ, P.

RIV year

2021

Released

31.12.2019

Publisher

Elsevier

ISBN

2452-3216

Periodical

Procedia Structural Integrity

Volume

23

Number

1

State

Republic of Italy

Pages from

529

Pages to

534

Pages count

6

URL

https://www.sciencedirect.com/science/article/pii/S2452321620302079

BibTex

@article{BUT162440,
  author="Hector Andres {Tinoco Navarro} and Carlos Ivan {Cardona} and Tomáš {Vojtek} and Pavel {Hutař}",
  title="Finite Element Analysis of Crack-tip Opening Displacement and Plastic Zones Considering the Cyclic Material Behavior",
  journal="Procedia Structural Integrity",
  year="2019",
  volume="23",
  number="1",
  pages="529--534",
  doi="10.1016/j.prostr.2020.01.140",
  issn="2452-3216",
  url="https://www.sciencedirect.com/science/article/pii/S2452321620302079"
}