[HTML][HTML] Optimizing mechanical properties of magnesium alloys by philosophy of thermo-kinetic synergy: Review and outlook
T Wang, F Liu - Journal of Magnesium and Alloys, 2022 - Elsevier
Although several strategies (including grain refinement, texture adjustment, precipitation
hardening, etc.) have been verified to effectively improve the mechanical properties of …
hardening, etc.) have been verified to effectively improve the mechanical properties of …
[HTML][HTML] On the texture evolution of aluminum-based composites manufactured by ARB process: a review
Texture development in materials processed by the accumulative roll bonding (ARB) is
vastly investigated using a variety of experimental methods in recent years. Thus, a …
vastly investigated using a variety of experimental methods in recent years. Thus, a …
Deformation twinning and detwinning in extruded Mg-4Al: In-situ experiment and crystal plasticity simulation
Deformation twinning and detwinning in extruded Mg-4Al were investigated using in-situ
SEM-DIC experiments and crystal plasticity finite element (CPFE) simulation. In this study …
SEM-DIC experiments and crystal plasticity finite element (CPFE) simulation. In this study …
Modular machine learning-based elastoplasticity: Generalization in the context of limited data
The development of highly accurate constitutive models for materials that undergo path-
dependent processes continues to be a complex challenge in computational solid …
dependent processes continues to be a complex challenge in computational solid …
The effects of heat treatment on the response of WE43 Mg alloy: crystal plasticity finite element simulation and SEM-DIC experiment
The present work addressed the effects of heat treatment on the mechanical response of a
WE43 Mg alloy using an integrated framework of SEM-DIC experiment and CPFE …
WE43 Mg alloy using an integrated framework of SEM-DIC experiment and CPFE …
Crystal Plasticity simulations of in situ tensile tests: A two-step inverse method for identification of CP parameters, and assessment of CPFEM capabilities
As the computational capability of modern computers increases, the Crystal Plasticity Finite
Element Method (CPFEM) becomes more and more popular in materials science to model …
Element Method (CPFEM) becomes more and more popular in materials science to model …
Local approximate Gaussian process regression for data-driven constitutive models: development and comparison with neural networks
Hierarchical computational methods for multiscale mechanics such as the FE 2 and FE-FFT
methods are generally accompanied by high computational costs. Data-driven approaches …
methods are generally accompanied by high computational costs. Data-driven approaches …
[HTML][HTML] Investigation of the grain deformation to orthogonal cutting process of the textured Alloy 718 fabricated by laser powder bed fusion
In the laser powder bed fusion (LPBF), the grains grow in preferential directions depending
on the scanning strategies, which results in layer-by-layer builds of particular …
on the scanning strategies, which results in layer-by-layer builds of particular …
Learning hyperelastic anisotropy from data via a tensor basis neural network
Anisotropy in the mechanical response of materials with microstructure is common and yet is
difficult to assess and model. To construct accurate response models given only stress …
difficult to assess and model. To construct accurate response models given only stress …
Hierarchical multiscale crystal plasticity framework for plasticity and strain hardening of multi-principal element alloys
The multi-principal element alloys (MPEAs) exhibit the unprecedented combinations of the
excellent mechanical properties, especially high strength and good ductility. However, the …
excellent mechanical properties, especially high strength and good ductility. However, the …