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A thermodynamically consistent non-isothermal phase-field model for selective laser sintering
Selective laser sintering (SLS) additive manufacturing possesses the characteristics of
extremely non-uniform temperature distribution and high temperature gradient, which are …
extremely non-uniform temperature distribution and high temperature gradient, which are …
Crystal plasticity-phase–field based analyses of interfacial microstructural evolution during dynamic recrystallization in a dual phase titanium alloy
In this study, an integrated crystal plasticity finite element–phase–field (CPFE–PF) model is
developed to examine dynamic recrystallization (DRX) in a dual phase Ti alloy. The CP …
developed to examine dynamic recrystallization (DRX) in a dual phase Ti alloy. The CP …
Modeling and simulation of steel rolling with microstructure evolution: an overview
As part of rolled steel's design and optimization, computational modeling and simulation are
increasingly applied for predicting the properties and microstructure of final steel products …
increasingly applied for predicting the properties and microstructure of final steel products …
3D non-isothermal phase-field simulation of microstructure evolution during selective laser sintering
During selective laser sintering (SLS), the microstructure evolution and local temperature
variation interact mutually. Application of conventional isothermal sintering model is thereby …
variation interact mutually. Application of conventional isothermal sintering model is thereby …
A review of 3D-printed bimetallic alloys
This paper provides a critical overview of experimental and computational studies
conducted on additive manufacturing (AM) or 3D printing using bimetallic alloys. The review …
conducted on additive manufacturing (AM) or 3D printing using bimetallic alloys. The review …
Abnormal grain growth behavior in gradient nanostructured titanium investigated by coupled quasi-in-situ EBSD experiments and phase-field simulations
Gradient nanostructured (GNS) metals exhibit superior mechanical properties compared
with their counterparts containing a homogeneous microstructure. However, GNS materials …
with their counterparts containing a homogeneous microstructure. However, GNS materials …
Insights into abnormal grain growth in copper thin films for reduced electrical resistivity: A quantitative multi-order-parameter phase-field study under finite element …
Copper thin films are frequently utilized as microelectronic interconnects. Inducing abnormal
grain growth (AGG) may result in reduced electrical resistivity of copper thin films. However …
grain growth (AGG) may result in reduced electrical resistivity of copper thin films. However …
Extraction of reduced-order process-structure linkages from phase-field simulations
Phase-field simulations have achieved notable success in capturing characteristic details of
microstructure evolution in directional solidification of ternary eutectic alloys. In spite of the …
microstructure evolution in directional solidification of ternary eutectic alloys. In spite of the …
Automatic differentiation in MetaPhysicL and its applications in MOOSE
Efficient solution via Newton's method of nonlinear systems of equations requires an
accurate representation of the Jacobian, corresponding to the derivatives of the component …
accurate representation of the Jacobian, corresponding to the derivatives of the component …
Microstructural and mechanistic insights into the Tension–Compression asymmetry of rapidly solidified Fe–Cr alloys: A phase field and strain gradient plasticity study
Abstract Rapid solidification in Additively Manufactured (AM) metallic materials results in the
development of significant microscale internal stresses, which are attributed to the printing …
development of significant microscale internal stresses, which are attributed to the printing …