Add to ORKGTheoretical research on powder compac-tion requires models to describe the develop-ment of mechanical properties. Elastoplas-ticity theory is particularly appropriate. Two relatively simple constitutive models have been considered, which differ in their for-mulation of the yield criterion. The predic-tions of the two models disagree, when the model parameters are related by assuming the same global dimensions of the instantaneous yield surfaces. A comparison is presented for uniaxial compression which shows that model parameters can be selected to force the two models to predict quantitatively similar stress development. To discriminate between potential models, it is necessary to increase the number of measurements against which they are c...
This paper presents a constitutive model describing the mechanical behavior of metal powders during ...
The paper aims to develop an elasto-plastic model considering particle crushing. For this purpose, t...
Few studies have been conducted to investigate the strain rate behavior of metal powders. To achieve...
Theoretical research on powder compaction requires models to describe the development of mechanical ...
The purpose of the research was to introduce a procedure to derive a powder compression parameter (E...
A constitutive model, based on large strain plasticity, for simulation of industrial powder compacti...
A simple constitutive model is presented to represent the behavior of granular materials subjected t...
Powder Metallurgical Industry is very interested in spreading its applications and improve the quali...
In the manufacture of ceramic components, near-net-shape parts are commonly formed by uniaxially pre...
AbstractThis paper develops a mechanistic model of granular materials that can be used with a commer...
A non-associated plasticity theory for granular materials has been developed in Part 1 based on the ...
International audienceGranular materials are constituted of an assembly of particles. In spite of th...
Stress-dilatancy relations have played a crucial role in the understanding of the mechanical behavio...
Although there is a large number of constitutive models for sand available in the literature it is b...
This paper presents a constitutive model describing the mechanical behavior of metal powders during ...
The paper aims to develop an elasto-plastic model considering particle crushing. For this purpose, t...
Few studies have been conducted to investigate the strain rate behavior of metal powders. To achieve...
Theoretical research on powder compaction requires models to describe the development of mechanical ...
The purpose of the research was to introduce a procedure to derive a powder compression parameter (E...
A constitutive model, based on large strain plasticity, for simulation of industrial powder compacti...
A simple constitutive model is presented to represent the behavior of granular materials subjected t...
Powder Metallurgical Industry is very interested in spreading its applications and improve the quali...
In the manufacture of ceramic components, near-net-shape parts are commonly formed by uniaxially pre...
AbstractThis paper develops a mechanistic model of granular materials that can be used with a commer...
A non-associated plasticity theory for granular materials has been developed in Part 1 based on the ...
International audienceGranular materials are constituted of an assembly of particles. In spite of th...
Stress-dilatancy relations have played a crucial role in the understanding of the mechanical behavio...
Although there is a large number of constitutive models for sand available in the literature it is b...
This paper presents a constitutive model describing the mechanical behavior of metal powders during ...
The paper aims to develop an elasto-plastic model considering particle crushing. For this purpose, t...
Few studies have been conducted to investigate the strain rate behavior of metal powders. To achieve...