Phase-field modelling of microstructure formation during the solidification of continuously cast low carbon and HSLA steels UHD Phase-field modelling of microstructure formation during the solidification of continuously cast low carbon and HSLA steels Weiterlesen »
Phase field simulations of microstructure formation in an Ag-Cu-O brazing filler under reactive air brazing conditions UHD Phase field simulations of microstructure formation in an Ag-Cu-O brazing filler under reactive air brazing conditions Weiterlesen »
Numerical solution of the phase-field equation with minimized discretization error UHD Numerical solution of the phase-field equation with minimized discretization error Weiterlesen »
Numerical Simulation of the Wax Injection Process UHD Numerical Simulation of the Wax Injection Process Weiterlesen »
Numerical Modelling of the Material Science Lab – Low Gradient Furnace (MSL-LGF) Microgravity Directional Solidification Experiments on the Columnar to Equiaxed Transition UHD Numerical Modelling of the Material Science Lab – Low Gradient Furnace (MSL-LGF) Microgravity Directional Solidification Experiments on the Columnar to Equiaxed Transition Weiterlesen »
Multi-Phase-Field Modeling of Solidification in Technical Steel Grades UHD Multi-Phase-Field Modeling of Solidification in Technical Steel Grades Weiterlesen »
ISS-Experiments and Modeling of Columnar-to-Equiaxed Transition in Solidification Processing UHD ISS-Experiments and Modeling of Columnar-to-Equiaxed Transition in Solidification Processing Weiterlesen »
Integrative Process Chain Simulation for Material and Production Technologies UHD Integrative Process Chain Simulation for Material and Production Technologies Weiterlesen »
Integrative computational materials engineering : concepts and applications of a modular simulation platform UHD Integrative computational materials engineering : concepts and applications of a modular simulation platform Weiterlesen »
Grain refinement in beta-solidifying Ti44Al8Nb1B UHD Grain refinement in beta-solidifying Ti44Al8Nb1B Weiterlesen »
