Critical assessment of the application of the J-integral and CTOD concepts to circumferentially cracked copper bars

Abstract: The aim of this work is to explore experimentally the validity of the concepts of J-integral and crack tip opening displacement for characterizing the stress and strain state at the tip of an axisymmetrical crack in a bar undergoing large plastic strain before crack extension. The tests are made on extruded copper round bars presenting a very high ductility. Three different analytical formulations of the J-integral proposed in the literature for circumferentially cracked bars are compared at initiation of crac… Show more

“…The EBSD technique (Electron Back Scattering Diffraction) allows the correlation between the microstructure characteristics and the distribution of plastic deformation and stresses EBSD is presently used predominantly in nearly all metallurgy research approaches and has become a common technique used in the characterization of polycrystalline materials the method has become increasingly useful in the analysis of grain size and distribution, grain boundary disorientations and texture analysis of materials. The EBSD technique makes it possible to observations [1][2][3].Crack propagation and stops is an important topic in the formability field [4][5][6]. It is to consider the combination of "micro and macro" effects [7][8][9].…”

Characterisation of transgranular crack propagation by EBSD in a soft steel

“…The EBSD technique (Electron Back Scattering Diffraction) allows the correlation between the microstructure characteristics and the distribution of plastic deformation and stresses EBSD is presently used predominantly in nearly all metallurgy research approaches and has become a common technique used in the characterization of polycrystalline materials the method has become increasingly useful in the analysis of grain size and distribution, grain boundary disorientations and texture analysis of materials. The EBSD technique makes it possible to observations [1][2][3].Crack propagation and stops is an important topic in the formability field [4][5][6]. It is to consider the combination of "micro and macro" effects [7][8][9].…”

Characterisation of transgranular crack propagation by EBSD in a soft steel

Structural-Integrity Assessment: The Relevant Fracture-Toughness Evaluation

Fracture Behavior and Characterization of Lead-Free Brass Alloys for Machining Applications