Detail publikace

Finite element analysis on the effect of martensitic transformation and plastic deformation on the stress concentration factor in a thin notched superelastic NiTi ribbon

SHAYANFARD, P. ŠITTNER, P. HELLER, L. ŠANDERA, P.

Originální název

Finite element analysis on the effect of martensitic transformation and plastic deformation on the stress concentration factor in a thin notched superelastic NiTi ribbon

Typ

článek v časopise ve Web of Science, Jimp

Jazyk

angličtina

Originální abstrakt

The severe nonlinear behavior caused by the martensitic transformation (MT) and subsequent plastic deformation (PD) of det-winned martensite leads to a complex local stress redistribution at the location of stress risers of superelastic shape memory alloy (SMA) components. Nevertheless, in the literature, the simple linear elastic fracture mechanics (LEFM) equations are widely used in the evaluation of the fracture response of superelastic components which has resulted in obvious conflicts between the conclusions regarding the effect of MT on the fracture parameters, i.e. stress intensity factor (SIF) and material toughness. Furthermore, the linear elasticity method is frequently used in the literature to calculate the stress intensity range (Delta K) when the fatigue crack growth rate dependence on Delta K (da/dN - Delta K) is being evaluated. Moreover, the PD followed by MT is poorly considered in the fracture mechanics of SMAs. This paper presents a numerical investigation on the role of both MT and PD, as well as the notch acuity, on the evolution of notch-tip stresses and strains and stress concentration factor (K-tn) upon the incremental application of the macroscopic tensile load on a thin NiTi notched superelastic ribbon, to mimic the effects of MT and PD on the SIF of superelastic parts. It is revealed that MT results in drastic deviations of the notch-tip stress, as well as the stress concentration factor (K-tn), from that obtained in LEFM. Due to the heterogeneous evolution of MT, the trend of the deviations is not regular and unique upon monotonic external loading. Accordingly, the results represent the ineffectiveness of the LEFM method in the evolution of the stress concentration factor (hence, the SIF) and toughness in monotonic loading, as well as the stress intensity range (Delta K) under fatigue loading in SMA components.

Klíčová slova

Stress concentration factor (K-tn); shape memory alloy; superelastic; martensitic transformation; plastic deformation; stress intensity factor (SIF); finite element; NiTi; notched ribbon

Autoři

SHAYANFARD, P.; ŠITTNER, P.; HELLER, L.; ŠANDERA, P.

Vydáno

1. 7. 2020

Nakladatel

WORLD SCIENTIFIC PUBL CO PTE LTD

Místo

SINGAPORE

ISSN

1793-6047

Periodikum

FUNCT MATER LETT

Ročník

13

Číslo

5

Stát

Singapurská republika

Strany od

2051028

Strany do

2051028

Strany počet

8

URL

BibTex

@article{BUT164618,
  author="Pejman {Shayanfard} and Petr {Šittner} and Luděk {Heller} and Pavel {Šandera}",
  title="Finite element analysis on the effect of martensitic transformation and plastic deformation on the stress concentration factor in a thin notched superelastic NiTi ribbon",
  journal="FUNCT MATER LETT",
  year="2020",
  volume="13",
  number="5",
  pages="2051028--2051028",
  doi="10.1142/S1793604720510285",
  issn="1793-6047",
  url="https://www.worldscientific.com/doi/abs/10.1142/S1793604720510285"
}