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The effect of vacancy diffusion and concentration on creep crack initiation in weldment of a C(T) specimen for high Cr steel

The effect of vacancy diffusion and concentration on creep crack initiation in weldment of a C(T)... In the present paper, to investigate the effect of vacancy diffusion and concentration on creep crack initiation and growth process for weldments, the numerical analyses of diffusion and concentration of vacancy around a notch tip of C(T) specimen in the heat affected zone (HAZ) were conducted based on the proposed 𝛼 multiplication and FEM-FDM methods. As an analytical result, the vacancy diffusion and concentration behavior around a notch tip of C(T) specimen in the heat affected zone for P92 steel was found to be dominated by the distribution of multi-axiality of the stress caused by inhomogeneous property of regions of fine and coarse grains in HAZ. It is also found to be closely related to the creep damage formation and the initial direction of creep crack growth. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Strength, Fracture and Complexity IOS Press

The effect of vacancy diffusion and concentration on creep crack initiation in weldment of a C(T) specimen for high Cr steel

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Publisher
IOS Press
Copyright
Copyright © 2018 IOS Press and the authors. All rights reserved
ISSN
1567-2069
eISSN
1875-9262
DOI
10.3233/SFC-180217
Publisher site
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Abstract

In the present paper, to investigate the effect of vacancy diffusion and concentration on creep crack initiation and growth process for weldments, the numerical analyses of diffusion and concentration of vacancy around a notch tip of C(T) specimen in the heat affected zone (HAZ) were conducted based on the proposed 𝛼 multiplication and FEM-FDM methods. As an analytical result, the vacancy diffusion and concentration behavior around a notch tip of C(T) specimen in the heat affected zone for P92 steel was found to be dominated by the distribution of multi-axiality of the stress caused by inhomogeneous property of regions of fine and coarse grains in HAZ. It is also found to be closely related to the creep damage formation and the initial direction of creep crack growth.

Journal

Strength, Fracture and ComplexityIOS Press

Published: Jan 1, 2018

References

  • Creep degradation in welds of Mod.9Cr-1Mo steel
    Masuyama
  • Creep deformation and failure of E911 E911 and P92 P92 similar weld-joints
    Falat
  • Evaluation of microstructures and creep damages in the HAZ of P91 steel weldment
    Tabuchi
  • Experimental study on creep damage evolution process of type IV cracking in 9Cr-0.5Mo-1.8W-VNb steel welded joint
    Zhao
  • Microstructural change of a 9Cr steel longitudinal welded tube under internal pressure creep loading
    Yamada
  • Evaluation of creep damage in heat affected zone of thick welded joint for Mod.9Cr-1Mo steel
    Li
  • Creep strength of high chromium steels welded parts under multiaxial stress conditions
    Yaguchi
  • Definition and estimation method of incubation time of creep crack growth for high Cr steels and their weldments (creep crack initiation)
    Yokobori Jr
  • A kinetic theory of fatigue crack growth growth based on vacancy condensation mechanism
    Yokobori
  • The kinetics of hydrogen embrittlement: A quantitative diffusion model
    Leeuwen
  • Numerical analysis on hydrogen diffusion and concentration in solid with emission around the crack tip
    Yokobori Jr
  • The application of the analysis of potential driven particle diffusion to the strength of materials
    Yokobori Jr
  • The effect of stress wave form on corrosion fatigue crack growth rate on the basis of hydrogen diffusion theory
    Yokobori Jr
  • Flow controllability of hydrogen diffusion driven by local stress field for steel under cyclic loading condition
    Ohmi
  • Micro mechanics based on vacancy diffusion coupled with damage mechanics related to creep deformation and prediction of creep fracture life
    Yokobori Jr
  • A review of a time-dependent fracture life law (or Model) based on a proposed multi-scale analysis
    Yokobori, Jr
  • The significance of 𝛼 multiplication method for numerical analysis of potential induced particle diffusion
    Yokobori Jr
  • Creep crack initiation and growth characteristics in weldment for P92 based on C*, dδ/dt and Q* parameters
    Sugiura