Add to ORKGWe present a brief overview of computational studies of elastic stress effects during precipitation of coherent particles. These studies include those which employ a continuum model, an atomistic (microscopic) model, and a field model. Their relative merits and limitations are discussed. Also, elastic stress effects during precipitation are presented in order to highlight the capabilities of the different computational techniques used in these studies (37 refs.)\u
Protective engineering has attracted significant renewed research interest in recent years. In the d...
The drop size distributions and the drop velocity function that characterize simulated rainfall at t...
Note:The present study considers the stresses in ice rubble mounds. A dynamic relaxation method has ...
We present a brief overview of computational studies of elastic stress effects during precipitation ...
Precipitation, which usually occurs by nucleation, growth and coarsening, may be affected by elastic...
The shapes, sizes, and distribution of second-phase precipitates are the principal factors determini...
Morphological evolution of coherent precipitates under an applied stress is analyzed by means of a d...
Extreme conditions allow us to reveal unusual material properties. At the same time an experimental ...
The shapes, sizes, and distribution of second phase precipitates are the principal factors determini...
AbstractA phase-field method was employed to study the influence of elastic field on the nucleation ...
The introduction of particles and precipitates into a matrix material results in strengthening effec...
International audienceModelling of precipitation in concentrated binary alloys requires to revisit t...
The formation of coherent precipitates is often accompanied by large elastic mismatch stresses, whic...
The paper deals with the implementation of an extended Cam-Clay model for unsaturated soils [14]. Th...
We examine the interaction between precipitates and grain boundaries, which undergo shear-coupled mo...
Protective engineering has attracted significant renewed research interest in recent years. In the d...
The drop size distributions and the drop velocity function that characterize simulated rainfall at t...
Note:The present study considers the stresses in ice rubble mounds. A dynamic relaxation method has ...
We present a brief overview of computational studies of elastic stress effects during precipitation ...
Precipitation, which usually occurs by nucleation, growth and coarsening, may be affected by elastic...
The shapes, sizes, and distribution of second-phase precipitates are the principal factors determini...
Morphological evolution of coherent precipitates under an applied stress is analyzed by means of a d...
Extreme conditions allow us to reveal unusual material properties. At the same time an experimental ...
The shapes, sizes, and distribution of second phase precipitates are the principal factors determini...
AbstractA phase-field method was employed to study the influence of elastic field on the nucleation ...
The introduction of particles and precipitates into a matrix material results in strengthening effec...
International audienceModelling of precipitation in concentrated binary alloys requires to revisit t...
The formation of coherent precipitates is often accompanied by large elastic mismatch stresses, whic...
The paper deals with the implementation of an extended Cam-Clay model for unsaturated soils [14]. Th...
We examine the interaction between precipitates and grain boundaries, which undergo shear-coupled mo...
Protective engineering has attracted significant renewed research interest in recent years. In the d...
The drop size distributions and the drop velocity function that characterize simulated rainfall at t...
Note:The present study considers the stresses in ice rubble mounds. A dynamic relaxation method has ...