Add to ORKGThis chapter describes micromechanical and macroscopic material models for granular and porous materials and applications to powder technological processing steps. The emphasis lies on powder compaction and sintering, while for the other steps of the process chain (powder fabrication and conditioning, pouring of the loose powder in the die, post-sintering mechanical densification, service behaviour) appropriate models are named and key references are given. The constitutive models
During the last fifteen years, the Powder Technology Research Group of the IWM h as worked on the si...
Sintering controls microstructure and quality of powder‐metallurgical and ceramic products and the e...
This research project is an insight of the computer simulation of sintering process used in developi...
This article describes the simulation of different powder technological processing steps. Among many...
Micromechanical models for the pressing and sintering of powders are described and macroscopic const...
Die compaction of powders is a process which involves filling a die with powder, compression of the ...
Die compaction of powders is a process which involves filling a die with powder, compression of the ...
Powder metallurgy, or P/M, is a process for forming metal parts by compacting and heating metal powd...
The feasibility of particle based simulation methods is shown for powder technological applications ...
Compaction of powders followed by sintering is a convenient manufacturing method for products of com...
Micromechanical models for the sintering of Powders are described and macroscopic constitutive equat...
Compaction of powders followed by sintering is a convenient manufacturing method for products of com...
A physics-based constitutive model of porous materials is proposed to enhance the accuracy of numeri...
AbstractThis paper develops a mechanistic model of granular materials that can be used with a commer...
A constitutive model, based on large strain plasticity, for simulation of industrial powder compacti...
During the last fifteen years, the Powder Technology Research Group of the IWM h as worked on the si...
Sintering controls microstructure and quality of powder‐metallurgical and ceramic products and the e...
This research project is an insight of the computer simulation of sintering process used in developi...
This article describes the simulation of different powder technological processing steps. Among many...
Micromechanical models for the pressing and sintering of powders are described and macroscopic const...
Die compaction of powders is a process which involves filling a die with powder, compression of the ...
Die compaction of powders is a process which involves filling a die with powder, compression of the ...
Powder metallurgy, or P/M, is a process for forming metal parts by compacting and heating metal powd...
The feasibility of particle based simulation methods is shown for powder technological applications ...
Compaction of powders followed by sintering is a convenient manufacturing method for products of com...
Micromechanical models for the sintering of Powders are described and macroscopic constitutive equat...
Compaction of powders followed by sintering is a convenient manufacturing method for products of com...
A physics-based constitutive model of porous materials is proposed to enhance the accuracy of numeri...
AbstractThis paper develops a mechanistic model of granular materials that can be used with a commer...
A constitutive model, based on large strain plasticity, for simulation of industrial powder compacti...
During the last fifteen years, the Powder Technology Research Group of the IWM h as worked on the si...
Sintering controls microstructure and quality of powder‐metallurgical and ceramic products and the e...
This research project is an insight of the computer simulation of sintering process used in developi...