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Numerical investigation of crack tip strain localization under cyclic loading in FCC single crystals
Numerical investigation of crack tip strain localization under cyclic loading in FCC single crystals
by Jonnalagadda, Krishna N. , Deka, Nipal
in Accumulation / Anisotropy / Automotive Engineering / Boundary layers / Characterization and Evaluation of Materials / Chemistry and Materials Science / Civil Engineering / Classical Mechanics / Computer simulation / Constraints / Crack tips / Cyclic loads / Edge dislocations / Elastic anisotropy / Evolution / Face centered cubic lattice / Fatigue (materials) / Finite element method / Fracture mechanics / Investigations / Kinematics / Localization / Materials Science / Mechanical Engineering / Plane strain / Plastic deformation / Plastic strain / Ratcheting / Serrated yielding / Simulation / Single crystals / Strain / Strain analysis / Strain localization
2017
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Numerical investigation of crack tip strain localization under cyclic loading in FCC single crystals
by Jonnalagadda, Krishna N. , Deka, Nipal
in Accumulation / Anisotropy / Automotive Engineering / Boundary layers / Characterization and Evaluation of Materials / Chemistry and Materials Science / Civil Engineering / Classical Mechanics / Computer simulation / Constraints / Crack tips / Cyclic loads / Edge dislocations / Elastic anisotropy / Evolution / Face centered cubic lattice / Fatigue (materials) / Finite element method / Fracture mechanics / Investigations / Kinematics / Localization / Materials Science / Mechanical Engineering / Plane strain / Plastic deformation / Plastic strain / Ratcheting / Serrated yielding / Simulation / Single crystals / Strain / Strain analysis / Strain localization
2017
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Numerical investigation of crack tip strain localization under cyclic loading in FCC single crystals
Numerical investigation of crack tip strain localization under cyclic loading in FCC single crystals
by Jonnalagadda, Krishna N. , Deka, Nipal
in Accumulation / Anisotropy / Automotive Engineering / Boundary layers / Characterization and Evaluation of Materials / Chemistry and Materials Science / Civil Engineering / Classical Mechanics / Computer simulation / Constraints / Crack tips / Cyclic loads / Edge dislocations / Elastic anisotropy / Evolution / Face centered cubic lattice / Fatigue (materials) / Finite element method / Fracture mechanics / Investigations / Kinematics / Localization / Materials Science / Mechanical Engineering / Plane strain / Plastic deformation / Plastic strain / Ratcheting / Serrated yielding / Simulation / Single crystals / Strain / Strain analysis / Strain localization
2017

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Numerical investigation of crack tip strain localization under cyclic loading in FCC single crystals
Numerical investigation of crack tip strain localization under cyclic loading in FCC single crystals
Journal Article

Numerical investigation of crack tip strain localization under cyclic loading in FCC single crystals

Jonnalagadda, Krishna N.,
Deka, Nipal
2017
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Overview
In this work, the crack tip strain localization in a face centered cubic single crystal subject to both monotonic and cyclic loading was investigated. The effect of constraint was implemented using T -stress and strain accumulation was studied for both isotropic and anisotropic elastic cases with the appropriate application of remote displacement fields in plane strain. Modified boundary layer simulations were performed using the crystal plasticity finite element framework. The consideration of elastic anisotropy amplified the effect of constraint level on stress and plastic strain fields near the crack tip indicating the importance of its use in fracture simulations. In addition, to understand the cyclic stress and strain behavior in the vicinity of the crack tip, combined isotropic and kinematic hardening laws were incorporated, and their effect on the evolution of yield curves and plastic strain accumulation were investigated. With zero-tension cyclic load, the evolution of plastic strain and Kirchhoff stress components showed differences in magnitudes between isotropic and anisotropic elastic cases. Furthermore, under cyclic loading, ratcheting was observed along the localized slip bands, which was shown to be affected by T -stress as well as elastic anisotropy. Negative T -stress increased the accumulation of plastic strain with number of cycles, which was further amplified in the case of elastic anisotropy. Finally, in all the cyclic loading simulations, the plastic strain accumulation was higher near the 55 0 slip band.
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Publisher
Springer Netherlands,Springer Nature B.V
Subject

Accumulation

/ Anisotropy

/ Automotive Engineering

/ Boundary layers

/ Characterization and Evaluation of Materials

/ Chemistry and Materials Science

/ Civil Engineering

/ Classical Mechanics

/ Computer simulation

/ Constraints

/ Crack tips

/ Cyclic loads

/ Edge dislocations

/ Elastic anisotropy

/ Evolution

/ Face centered cubic lattice

/ Fatigue (materials)

/ Finite element method

/ Fracture mechanics

/ Investigations

/ Kinematics

/ Localization

/ Materials Science

/ Mechanical Engineering

/ Plane strain

/ Plastic deformation

/ Plastic strain

/ Ratcheting

/ Serrated yielding

/ Simulation

/ Single crystals

/ Strain

/ Strain analysis

/ Strain localization

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