On this page research related to the simulation of following phenomena is presented

• • Modeling grain structure evolution with misorientation and inclination dependence of grain boundary properties

  • Pinning effect of second-phase particles and voids

  • Jerky recrystallization grain boundary motion in heterogeneous deformation fields

  • Large-scale 3-dimensional grain growth simulations -- the Bounding Box sparse data structure algorithm

  • Grain growth simulations within multi-physics problems

On this page research related to the simulation of following phenomena is presented

• • High entropy alloys (HEAs) and multi-principle-element alloys (MPEAs)

  • Interdiffusion and intermetallic compound formation in solder joints

  • Diffusion controlled coarsening in multi-phase systems, including coarsening and two- and three-phase systems and in the final stage of liquid phase sintering

  • Crystallization, dissolution and wetting in oxidic and oxide-containing systems

  • Development and benchmarking of quantitative models suited for experimental length scales

On this page, research related to the simulation of following phenomena is presented

• • Model development and testing of phase-field models including mechanical effects

  • Phase transformations in mechanically loaded materials

  • Twin nucleation and growth

Find out about our work integrating phase-field simulations with Tensor Decomposition and other Machine Learning techniques here. 

Find out about our thermodynamic and kinetic models (other than phase-field ) here. 

A list of all PhD manuscripts