Search
Search Results
-
Phase field modeling of anisotropic fracture
The main aim of the current study is to explore direction-dependent fracture initiation and propagation within an arbitrary anisotropic solid. In...
-
Phase Field Modeling of Cracks in Ice
Calving of iceberg at ice shelves and floating glacier tongues is a poorly understood process, hence a physically motivated calving law is not yet... -
Phase-Field Modeling of Dynamical Interface Phenomena in Fluids
We discuss recent developments and applications of phase-field models to describe interface phenomena far from equilibrium. The basic idea is to... -
Gradient-Stable Algorithm for the Dynamics of the Phase Field in Modeling of Directional Solidification in Si–As
AbstractThe main provisions of the phase-field method for concentrated solutions and the problems of numerical modeling of a thermodynamically...
-
Electric-field-induced crystallization of Hf0.5Zr0.5O2 thin film based on phase-field modeling
Ferroelectricity in crystalline hafnium oxide has attracted considerable attention because of its potential application for memory devices. A recent...
-
Phase Transformations in Single-Component Multiphase Systems: Phase-Field Approach
AbstractThe problems of constructing a multiphase model of the phase field for the processes of phase transitions of the first kind are considered....
-
Multi-phase-field modeling of grain growth in polycrystalline titanium under magnetic field and elastic strain
A two-dimensional constitutive model was developed to simulate grain boundary motion in polycrystalline titanium exposed simultaneously to magnetic...
-
Phase-Field Damage Modeling in Generalized Mechanics by Using a Mixed Finite Element Method (FEM)
Material modeling is applied for bulk materials where the length-scale of the geometry is adequately larger than any voids within the material.... -
Experimental Evaluation and Phase-Field Model of Fracture Behavior of Alumina-Aluminium Graded Composite
Multilayered metal-ceramic composites belong to the class of functionally graded materials with a step-wise gradient in material composition. These... -
A review of continuous modeling of periodic pattern formation with modified phase-field crystal models
The phase-field crystal (PFC) method is known as a relatively new continuum approach for describing the microstructural dynamics of materials during...
-
Predicting mechanical failure of polycrystalline dual-phase nickel-based alloys by numerical homogenization using a phase field damage model
Brazing of nickel-based alloys plays a major role in the assembly of turbine components, e.g., abradable sealing systems. In a brazed joint of...
-
Phase transitions of Yukawa systems under electric field
Molecular dynamics simulations have been employed to investigate the phase transition phenomena in three-dimensional strongly coupled Yukawa systems...
-
The Sound Field Intensity Distribution in the Deep Sea in the “Depth—Angle–Time” Phase Space
Abstract —The transition from the traditional representation of the wave field in the vertical section of an underwater sound channel as a function of...
-
Phase diagrams of the Blume–Capel model with mixed spins (1/2, 1) in a transverse crystal field
The critical behavior and phase diagrams of the ferromagnetic mixed spin-1/2 and spin-1 Blume–Capel model in a transverse crystal field are studied...
-
Simulation of M23C6 precipitation mechanism during solidification of Ni40A coated on phosphorus removal roll by phase field method
The inseparability of material macroscopic properties and microstructure has prompted scholars to continuously delve into microstructural studies....
-
Simulation of heat transfer and dendrite growth during the arc deposition of nickel-based superalloy via finite element-phase field modeling
In this work, a macro–micro Finite Element-Phase Field (FE-PF) model is proposed to simulate the heat transfer and dendrite growth during the arc...
-
Phase-field crystal simulation of tilt grain boundary evolution under tensile deformation
The grain boundary (GB) migration and dislocation movement are the basic mechanisms of deformation and strengthening of alloys. The migration of...
-
Computer Modeling of the Evolution of Statistical Parameters of the Phase Distributions of the Laser Radiation Field Converted by Optically Anisotropic Layers
This chapter provides an analysis of the phase structure of laser fields that are formed OAL of crystals of various geometric configurations. OAL is... -
Formation and Stability of the Crystalline Structures in Two-Mode Phase-Field Crystal Model
AbstractThe two-mode phase-field crystal (PFC) model is an extended classical PFC model which allows one to describe hexagonal and other complex...