International audienceCracking during sintering is a common problem in powder processing and is usually caused by constraint that prevents the sintering material from shrinking in one or more directions. Different factors influencing sintering-induced cracking include temperature schedule, packing density, and specimen geometry. Here we use the di
ABSTRACT: A discrete model for the sintering of discrete particles in two dimensions is presented wi...
Discrete element analysis is used to map particle size distributions into measures of the pore size ...
Metal paste extrusions processes have found widespread application and are typically thought of as f...
The aim of the project is to develop methods for predicting distortions and cracking during the fabr...
The most economic and most frequently used production route in powder technology is uniaxial die pre...
The proximity of un-melted particles within Selective Laser Sintered (SLS) printed engineering parts...
During constrained sintering of thin films, in which a cylindrical cavity with axis perpendicular to...
International audienceParts composed of two ceramic-metal composite layers have been fabricated by c...
A model for prediction of damage development during sintering is put forward. The model is based on ...
Metal Powder represents a statistical set of particles with different geometry and mechanical proper...
In the present study, crack propagation through the case hardened region of two different PM steels ...
By monitoring the recoating process within polymer laser sintering production, it was shown that m...
Summary. A numerical model for modelling crack formation during the powder compaction stage of powde...
International audienceSilver powder compacts may suffer an overall expansion during sintering. A sim...
This paper presents a constitutive model describing the mechanical behavior of metal powders during ...
ABSTRACT: A discrete model for the sintering of discrete particles in two dimensions is presented wi...
Discrete element analysis is used to map particle size distributions into measures of the pore size ...
Metal paste extrusions processes have found widespread application and are typically thought of as f...
The aim of the project is to develop methods for predicting distortions and cracking during the fabr...
The most economic and most frequently used production route in powder technology is uniaxial die pre...
The proximity of un-melted particles within Selective Laser Sintered (SLS) printed engineering parts...
During constrained sintering of thin films, in which a cylindrical cavity with axis perpendicular to...
International audienceParts composed of two ceramic-metal composite layers have been fabricated by c...
A model for prediction of damage development during sintering is put forward. The model is based on ...
Metal Powder represents a statistical set of particles with different geometry and mechanical proper...
In the present study, crack propagation through the case hardened region of two different PM steels ...
By monitoring the recoating process within polymer laser sintering production, it was shown that m...
Summary. A numerical model for modelling crack formation during the powder compaction stage of powde...
International audienceSilver powder compacts may suffer an overall expansion during sintering. A sim...
This paper presents a constitutive model describing the mechanical behavior of metal powders during ...
ABSTRACT: A discrete model for the sintering of discrete particles in two dimensions is presented wi...
Discrete element analysis is used to map particle size distributions into measures of the pore size ...
Metal paste extrusions processes have found widespread application and are typically thought of as f...
DOI
Add to ORKG