This paper explores the possibility of producing metal matrix composites by using the explosive compaction method. 2124Al alloy reinforced with silicon carbide particulates ranging from 20 to 40vol.% were compacted by this method. The effect of explosive pad thickness and the impact energy imparted to the powder on the density of the compacts were studied. The metal matrix composites of 2124Al-20vol.% SiCp and 2124Al-30vol.% SiCp were further subjected to hot rolling at 520 degrees C and age hardened and the tensile properties of the composites were evaluated. (C) 1999 Elsevier Science S.A.
Shock compression of metal powders can cause good interparticle bonding and phase transformations. S...
Room temperature compressive tests have been carried out on three metal matrix composites (MMCs), al...
SiCp reinforced aluminium matrix composites (AMCs), which are widely used in the aerospace, automoti...
This paper explores the possibility of producing metal-matrix composites using the explosive compact...
This paper concerns the use of explosives in the processing of aluminium metal matrix composites (AM...
Aluminium powders and Al-SiCp composite powders have been compacted in the form of cylinders using e...
This paper is about development of new method of producing metal matrix composites with small size r...
The investigations in this project involved the development of a powder metallurgy (P/M) route for t...
In this study 7075 matrix alloy is chosen and SiC particles having average particle size of 29 mu m ...
This paper describes the mechanical alloying + dynamic compaction flowchart for producing composites...
The performance requirement of advanced aerospace systems necessitates the development of new materi...
The present work investigates the possibility of using powder metallurgy processing for producing a ...
2124 alloy powders have been compacted using explosive compaction. The effect of process parameters ...
Hot shock compaction method was utilized for the consolidation of MAX phase composites consisting of...
Metal matrix composite (MMC) materials used for a wide range of construction elements can also be us...
Shock compression of metal powders can cause good interparticle bonding and phase transformations. S...
Room temperature compressive tests have been carried out on three metal matrix composites (MMCs), al...
SiCp reinforced aluminium matrix composites (AMCs), which are widely used in the aerospace, automoti...
This paper explores the possibility of producing metal-matrix composites using the explosive compact...
This paper concerns the use of explosives in the processing of aluminium metal matrix composites (AM...
Aluminium powders and Al-SiCp composite powders have been compacted in the form of cylinders using e...
This paper is about development of new method of producing metal matrix composites with small size r...
The investigations in this project involved the development of a powder metallurgy (P/M) route for t...
In this study 7075 matrix alloy is chosen and SiC particles having average particle size of 29 mu m ...
This paper describes the mechanical alloying + dynamic compaction flowchart for producing composites...
The performance requirement of advanced aerospace systems necessitates the development of new materi...
The present work investigates the possibility of using powder metallurgy processing for producing a ...
2124 alloy powders have been compacted using explosive compaction. The effect of process parameters ...
Hot shock compaction method was utilized for the consolidation of MAX phase composites consisting of...
Metal matrix composite (MMC) materials used for a wide range of construction elements can also be us...
Shock compression of metal powders can cause good interparticle bonding and phase transformations. S...
Room temperature compressive tests have been carried out on three metal matrix composites (MMCs), al...
SiCp reinforced aluminium matrix composites (AMCs), which are widely used in the aerospace, automoti...