Experiments and modeling of anisotropic aluminum extrusions under multi-axial loading–Part II: Ductile fracture
The anisotropic ductile fracture of a 6260-T6 anisotropic aluminum alloy extrusion is
investigated using a hybrid experimental–numerical approach. A basic fracture testing …
investigated using a hybrid experimental–numerical approach. A basic fracture testing …
On key factors influencing ductile fractures of dual phase (DP) steels
In this paper, we examine the key factors influencing ductile failure of various grades of dual
phase (DP) steels using the microstructure-based modeling approach. Various …
phase (DP) steels using the microstructure-based modeling approach. Various …
Applications of electron backscatter diffraction to materials science: status in 2009
V Randle - Journal of materials science, 2009 - Springer
Over the last two decades electron backscatter diffraction (EBSD) in the scanning electron
microscope has become a powerful tool for the characterisation of crystalline materials. Via …
microscope has become a powerful tool for the characterisation of crystalline materials. Via …
Microstructure-based constitutive modeling of TRIP steel: Prediction of ductility and failure modes under different loading conditions
KS Choi, WN Liu, X Sun, MA Khaleel - Acta Materialia, 2009 - Elsevier
We study the ultimate ductility and failure modes of a commercial transformation-induced
plasticity (TRIP) 800 steel under different loading conditions with an advanced …
plasticity (TRIP) 800 steel under different loading conditions with an advanced …
Computational elastic analysis of AA7075-O using 3D-microstructrure-based-RVE with really-distributed particles
Q Sun, MK Jain - International Journal of Mechanical Sciences, 2022 - Elsevier
AA7075 is of special interest amongst aluminum alloys for structural applications in
automotive and aerospace industries because of its higher strength. Due to advances in …
automotive and aerospace industries because of its higher strength. Due to advances in …
Elastoplastic analysis of AA7075-O aluminum sheet by hybrid micro-scale representative volume element modeling with really-distributed particles and in-situ SEM …
This paper addresses the challenge of reconstructing randomly distributed second-phase
particle-strengthened microstructure of AA7075-O aluminum sheet material for …
particle-strengthened microstructure of AA7075-O aluminum sheet material for …
A new crystal plasticity constitutive model for simulating precipitation-hardenable aluminum alloys
Age hardened aluminum alloys have superior strengths compared to non-age hardenable
alloys due to the growth of a secondary phase of precipitates. This work presents a new …
alloys due to the growth of a secondary phase of precipitates. This work presents a new …
[HTML][HTML] 3D micromechanical simulation of the mechanical behavior of an in-situ Al3Ti/A356 composite
S Ma, X Zhuang, X Wang - Composites Part B: Engineering, 2019 - Elsevier
The mechanical behavior of an in-situ Al 3 Ti/A356 composite was studied by three-
dimensional (3D) micromechanical simulation with microstructure-based Representative …
dimensional (3D) micromechanical simulation with microstructure-based Representative …
Damage mechanisms of 2195-O aluminum alloy sheet induced by microstructural evolution during tensile deformation at different temperatures
L Kou, Y Zhao, G Wang, F Wang, Z Yu - Materials Science and Engineering …, 2024 - Elsevier
The 2195 aluminum alloy is limited in aerospace structural components due to its poor
formability at room temperature (RT) and narrow range of working parameters at hot …
formability at room temperature (RT) and narrow range of working parameters at hot …
Influence of hydrogen on strain localization and fracture behavior in AlZnMgCu aluminum alloys
Hydrogen-induced dislocation motion is characterized in terms of the microscopic strain
distribution in Alsingle bondZnsingle bondMgsingle bond Cu aluminum alloys. Hydrogen …
distribution in Alsingle bondZnsingle bondMgsingle bond Cu aluminum alloys. Hydrogen …