The effect of plasticity theory on predicted residual stress fields in numerical weld analyses

@article{Murnsky2012TheEO,
  title={The effect of plasticity theory on predicted residual stress fields in numerical weld analyses},
  author={Ondrej Mur{\'a}nsky and Cory J. Hamelin and Michael C. Smith and Philip J. Bendeich and Lyndon Edwards},
  journal={Computational Materials Science},
  year={2012},
  volume={54},
  pages={125-134}
}
View via Publisher
111 Citations
Highly Influential Citations
3
Background Citations
19
Methods Citations
12
Results Citations
4

111 Citations

The influence of constitutive material models on accumulated plastic strain in finite element weld analyses

Influence of Hardening Models on the Estimation of Residual Stresses by Finite Element Modeling in Type 316LN Stainless Steel Weld Joints

In the present study, residual stress distribution in Activated-Tungsten Inert Gas (A-TIG) welded type 316LN stainless steel weld joints is estimated by using finite element model (FEM). The

An Eulerian thermomechanical elastic–viscoplastic model with isotropic and directional hardening applied to computational welding mechanics

An Eulerian thermomechanical elastic–viscoplastic model with isotropic and directional hardening is used to analyse the residual mechanical state resulting from the arc welding of a multi-pass weld.

A Validated Numerical Model for Residual Stress Predictions in an Eight-Pass-Welded Stainless Steel Plate

Welding processes create a complex transient state of temperature that results in post-weld residual stresses. The current work presents a finite element (FE) analysis of the residual stress

Numerical simulation of residual stress in 10Ni5CrMoV steel weldments

Numerical analysis of the effect of weld-induced residual stress and plastic damage on the ballistic performance of welded steel plate

Influence of Material Model on Prediction Accuracy of Welding Residual Stress in an Austenitic Stainless Steel Multi-pass Butt-Welded Joint

Both experimental method and numerical simulation technology were employed to investigate welding residual stress distribution in a SUS304 steel multi-pass butt-welded joint in the current study. The

Validation of a numerical model used to predict phase distribution and residual stress in ferritic steel weldments

Evaluation of Errors Associated with Cutting-Induced Plasticity in Residual Stress Measurements Using the Contour Method

It is found that a cutting direction normal to the symmetry plane of the residual stress distribution can lead to a substantially asymmetrical back-calculated stress distribution, owing to cutting-induced plasticity, and that the cutting direction and clamping strategy can be optimised with an understanding of their effects on plasticity and hence the back-Calculated stresses.

Effects of residual stresses on the uniaxial ratcheting behavior of a girth-welded stainless steel pipe

This study attempts to characterize analytically the uniaxial ratcheting behavior of a girth-welded stainless steel pipe. Finite element (FE) simulation of the girth butt welding is first carried out
...

10 References

The NeT bead-on-plate benchmark for weld residual stress simulation

The NeT residual stress measurement and modelling round robin on a single weld bead-on-plate specimen

NeT bead on plate round robin: Comparison of residual stress predictions and measurements

Validated numerical analysis of residual stresses in Safety Relief Valve (SRV) nozzle mock-ups

Full 3D spatially resolved mapping of residual strain in a 316L austenitic stainless steel weld specimen

Characterizing Phase Transformations and Their Effects on Ferritic Weld Residual Stresses with X-Rays and Neutrons

Weld residual stresses often approach, or exceed, the yield strength of the material, with serious implications for the integrity of engineering structures. It is not always feasible to measure

Welding residual stresses in ferritic power plant steels

Abstract Many of the degradation mechanisms relevant to power plant components can be exacerbated by stresses that reside within the material. Good design or structural integrity assessments require

A review of some plasticity and viscoplasticity constitutive theories

Introduction to computational plasticity

1. Microplasticity 2. Continuum Plasticity 3. Kinematics of Large Deformations and Continuum Mechanics 4. The Finite Element Method for Static and Dynamic Plasticity 5. Implicit and Explicit

Mechanics of Solid Materials

1. Elements of the physical mechanisms of deformation and fracture 2. Elements of continuum mechanics and thermodynamics 3. Identification and theological classification of real solids 4. Linear