Add to ORKGThe microstructure and microhardness of a ball milled and hot pressed aluminium powder with 10 vol.% of magnesium nitride (Mg3N2) were investigated. It was expected that the addition of a Mg3N2 as an nitrogen-bearing substrate would allow to obtain an in situ reaction leading to a formation of an aluminium nitride (AlN) strenghtening phase. The powders were milled in a high energy planetary ball mill for up to 40 h and then compacted in vacuum at 400ºC/600 MPa. The material was investigated by means of X-ray diffraction measurements (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM) and microhardness tests. The performed investigations showed that the composite preparation method provided a significant struct...
The mechanical properties of the conventional maraging steels are controlled by the choice of chemic...
In this work, magnesium-based composites were obtained by shock-wave compaction of a powder mixture ...
The work presents a study on alloys of the Al-Mg system (5–6 wt%) strengthened with Al3Er particles....
The microstructure and microhardness of a ball milled and hot pressed aluminium powder with 10 vol.%...
Alloyed layers on pure magnesium were created by means of the heating of the magnesium sample covere...
In order to improve the mechanical properties of magnesium, dispersion strengthening with -alumina p...
Magnesium matrix composites reinforced with AlN particles were fabricated by the powder metallurgy t...
The aim of this work was to study the influence of nanoparticles of aluminum nitride on the structur...
The paper presents analysis of plasticity characteristics and microstructure of magnesium alloys for...
Aluminum matrix composites (AMCs) reinforced by aluminum nitride were prepared by mechanical alloyi...
The paper presents analysis of plasticity characteristics and microstructure of magnesium alloys for...
Air-atomized pure aluminium powder with 15 at.% MgB2 was mechanically milled (MMed) by using a vibra...
This communication reports an experimental study on the in situ formation of hard AlN particles in a...
The paper is focused on the role of the pressing pressure on the densification behaviour of PM alumi...
Al-Mg alloys were infiltrated into porous alumina preforms at temperatures greater than 950°C where ...
The mechanical properties of the conventional maraging steels are controlled by the choice of chemic...
In this work, magnesium-based composites were obtained by shock-wave compaction of a powder mixture ...
The work presents a study on alloys of the Al-Mg system (5–6 wt%) strengthened with Al3Er particles....
The microstructure and microhardness of a ball milled and hot pressed aluminium powder with 10 vol.%...
Alloyed layers on pure magnesium were created by means of the heating of the magnesium sample covere...
In order to improve the mechanical properties of magnesium, dispersion strengthening with -alumina p...
Magnesium matrix composites reinforced with AlN particles were fabricated by the powder metallurgy t...
The aim of this work was to study the influence of nanoparticles of aluminum nitride on the structur...
The paper presents analysis of plasticity characteristics and microstructure of magnesium alloys for...
Aluminum matrix composites (AMCs) reinforced by aluminum nitride were prepared by mechanical alloyi...
The paper presents analysis of plasticity characteristics and microstructure of magnesium alloys for...
Air-atomized pure aluminium powder with 15 at.% MgB2 was mechanically milled (MMed) by using a vibra...
This communication reports an experimental study on the in situ formation of hard AlN particles in a...
The paper is focused on the role of the pressing pressure on the densification behaviour of PM alumi...
Al-Mg alloys were infiltrated into porous alumina preforms at temperatures greater than 950°C where ...
The mechanical properties of the conventional maraging steels are controlled by the choice of chemic...
In this work, magnesium-based composites were obtained by shock-wave compaction of a powder mixture ...
The work presents a study on alloys of the Al-Mg system (5–6 wt%) strengthened with Al3Er particles....