Voids development in metals: Numerical modelling
W Wciślik, S Lipiec - Materials, 2023 - mdpi.com
The article is a continuation of two previous review papers on the fracture mechanism of
structural metals through the nucleation, growth and coalescence of voids. In the present …
structural metals through the nucleation, growth and coalescence of voids. In the present …
Void nucleation and growth from heterophases and the exploitation of new toughening mechanisms in metals
Heterophases, such as precipitates, inclusions, second phases, or reinforcement particles,
often drive void nucleation due to local incompatibilities in stresses/strains. This results in a …
often drive void nucleation due to local incompatibilities in stresses/strains. This results in a …
A CPFEM based study to understand the void growth in high strength dual-phase titanium alloy (Ti-10V-2Fe-3Al)
High strength titanium alloys are generally used in widespread applications ranging over,
but not limited to biomedical, aerospace, automotive, marine, oil and gas, and energy …
but not limited to biomedical, aerospace, automotive, marine, oil and gas, and energy …
[HTML][HTML] Evolution of internal pores within AlSi10Mg manufactured by laser powder bed fusion under tension: As-built and heat treated conditions
The optimisation of processing parameters to produce high densification AlSi10Mg parts by
laser powder bed fusion (LPBF) has received considerable attention in recent years …
laser powder bed fusion (LPBF) has received considerable attention in recent years …
Investigation on intragranular and intergranular void growth and their competition in polycrystalline materials
In polycrystalline materials, void growth is strongly dependent on its surrounding
microstructural environment such as grain morphologies, crystallographic orientations and …
microstructural environment such as grain morphologies, crystallographic orientations and …
[HTML][HTML] A molecular dynamics study of the effect of initial pressure on the mechanical resilience of aluminum polycrystalline
Polycrystalline materials are essential in engineering due to their ability to withstand various
forces, heat, and environmental conditions. The arrangement of atoms within these crystals …
forces, heat, and environmental conditions. The arrangement of atoms within these crystals …
Influence of textural variability on plastic response of porous crystal embedded in polycrystalline aggregate: A crystal plasticity study
Damage evolution in polycrystalline aggregates is complicated by the intricate interplay of
crystallographic orientation of the porous grain and the surrounding anisotropic matrix …
crystallographic orientation of the porous grain and the surrounding anisotropic matrix …
Representative volume element (RVE) based crystal plasticity study of void growth on phase boundary in titanium alloys
Crystal plasticity based finite element method (CPFEM) studies have been successfully used
to model different material behaviour and phenomenon, including but not limited to; fatigue …
to model different material behaviour and phenomenon, including but not limited to; fatigue …
Crystal plasticity finite element simulation of NiTi shape memory alloy under canning compression based on constitutive model containing dislocation density
B Yan, S Jiang, L Hu, Y Zhang, D Sun - Mechanics of Materials, 2021 - Elsevier
Crystal plasticity finite element (CPFE) simulation is employed for revealing plastic
deformation mechanism of NiTi shape memory alloy (SMA) under canning compression at …
deformation mechanism of NiTi shape memory alloy (SMA) under canning compression at …
Effect of initial void shape on void growth of structural steels based on micromechanical RVE models
This paper aims to study the effect of initial void shape on void growth of structural steels,
which is a critical stage for ductile fracture of steel. Typical void shapes of structural steels …
which is a critical stage for ductile fracture of steel. Typical void shapes of structural steels …