For over three decades, the front-capturing level-set method has demonstrated its prowess
for the simulation, at the mesoscopic scale, of numerous mechanisms in the context of …

The evolution of metallic material microstructures under thermomechanical treatment is a
critical element that influences the in‐use properties of the final product. In the last four …

Commercial purity as-cast magnesium was hot rolled and subsequently annealed at
different temperatures in order to investigate its grain growth behavior and link it to the …

Recrystallization of metallic materials is an important metallurgical treatment to bring cold-
worked alloys to a usable state. Static recrystallization (SRX) occurs after deformation, once …

This paper describes a level set framework for the full field modeling of dynamic and post-
dynamic recrystallization in a 3D polycrystalline material with an accurate description of …

Thermomechanical processing of crystalline materials induces microstructural evolution
such as grain nucleation and growth. In the numerical simulation of these processes, grain …

This work describes the coupling of a level-set (LS) based numerical framework for
microstructural evolutions modeling with a crystal plasticity finite element method (CPFEM) …

The development of new structural materials (primarily metals and alloys) and their
processing technologies for the manufacture of high-performance products is and will be the …

In this paper, a new method for the simulation of evolving multi-domains problems will be
presented. The method is inspired by the front-tracking approaches where only the …

Tailoring microstructures by optimizing fabrication or forming processes is a challenge for
metal industries. However, predicting microstructure evolution implies to develop models at …