Difference in Local Deformation and Ductile Fracture Behaviors between Hard VC and Soft Cu Particle Dispersion Ferritic Steels

Abstract: Particle dispersion ferritic steels with hard VC carbide particles and that with soft Cu particles were tensile-tested for investigating the effect of particle nature (hard or soft) on plastic deformation and ductile fracture behaviors. The Cu dispersion steel exhibited a significantly larger necking deformation than the VC dispersion steel, which is due to less frequent void formation in the Cu dispersion steel. Digital image correlation (DIC) analysis for tensile-deformed specimens revealed that the plastic … Show more

“…1) This finding contradicts the expectation that V addition induces homogeneous strain distribution. Through high-resolution DIC analysis, Tsuchiyama et al 7) revealed that strain concentration occurred around the VC precipitates. Therefore, although V addition leads to a decrease in the difference of strain between the ferrite and martensite phases, it causes inhomogeneous strain distribution in the ferrite phase.…”

Effects of Vanadium Addition on Strain Distribution, Crack Initiation and Propagation during Low-cycle Fatigue Test in Ferrite and Martensite Dual-phase Steel

“…1) This finding contradicts the expectation that V addition induces homogeneous strain distribution. Through high-resolution DIC analysis, Tsuchiyama et al 7) revealed that strain concentration occurred around the VC precipitates. Therefore, although V addition leads to a decrease in the difference of strain between the ferrite and martensite phases, it causes inhomogeneous strain distribution in the ferrite phase.…”

Effects of Vanadium Addition on Strain Distribution, Crack Initiation and Propagation during Low-cycle Fatigue Test in Ferrite and Martensite Dual-phase Steel

“…mens revealed that plastic strain was concentrated around the vanadium carbide particles. 9) However, the majority of previous studies using DIC have applied two-dimensional (2D) analysis. For a more precise understanding of deformation behavior, it is necessary to carry out analysis of strain distribution in two perpendicular planes and/or three dimensions in metals.…”

“…Deformation behavior has been computationally investigated using the finite element method (FEM) [1][2][3] and, more recently, digital image correlation (DIC). [4][5][6][7][8][9][10][11] The latter is an innovative noncontact optical technique to measure the strain and displacement in metals.…”

Strain Distribution Analysis of Two Perpendicular Planes in SUS310S Austenitic Stainless Steel Using Digital Image Correlation