Add to ORKGThe high-temperature wettability of alumina particulate preforms by copper is investigated by means of infiltration experiments conducted at 1473 K under low oxygen partial pressure. Wetting is quantified in terms of drainage curves, which plot the volume fraction of metal in the porous medium vs. the applied pressure. Mercury porosimetry is also used on similar preforms for comparison. The effect of volume fraction, particle geometry and capillary parameters on the drainage curve are studied and compared with the expression proposed by Brooks and Corey. The influence of the particle volume fraction and capillary parameters characterizing wetting in the two systems is discussed to derive an effective contact angle for wetting of alumina par...
Porous skeletons prepared by sintering loose metal powders have been infiltrated with liquid metals....
Unidirectional pressure infiltration of porous preforms by molten metals is investigated numerically...
The degradation of refractory ceramics, used to contain and thermally insulate molten aluminum, in m...
The wetting of angular alumina particle preforms by Cu-Sn alloys is investigated by means of pressur...
In the pressure infiltration of metal matrix composites, molten metal is injected under external pre...
Composite materials are often produced by pressure-infiltration of a liquid matrix into a preform of...
This thesis investigates the interaction between mechanically induced flow of a liquid metal into a ...
We present dynamic measurement of drainage curves in two systems having relevance to metal matrix co...
The high-temperature wettability of AlN particle preforms with pure molten Cu, Al and Ph is quantifi...
We investigate processing-microstructure relationships in the production of Al2O3 particle reinforce...
This paper studies attained microstructures and reactive mechanisms involved in vacuum infiltration ...
In the pressure infiltration processing of Metal Matrix Composites (MMCs), molten metal is injected ...
We explore the influence (i) of the interaction between aluminium and alumina, and (ii) of sodium im...
The work needed to mechanically drive molten metal into a porous solid preform when producing a comp...
In this dissertation, the capillary flow of liquid aluminum alloy in both wetting and wetting/non-we...
Porous skeletons prepared by sintering loose metal powders have been infiltrated with liquid metals....
Unidirectional pressure infiltration of porous preforms by molten metals is investigated numerically...
The degradation of refractory ceramics, used to contain and thermally insulate molten aluminum, in m...
The wetting of angular alumina particle preforms by Cu-Sn alloys is investigated by means of pressur...
In the pressure infiltration of metal matrix composites, molten metal is injected under external pre...
Composite materials are often produced by pressure-infiltration of a liquid matrix into a preform of...
This thesis investigates the interaction between mechanically induced flow of a liquid metal into a ...
We present dynamic measurement of drainage curves in two systems having relevance to metal matrix co...
The high-temperature wettability of AlN particle preforms with pure molten Cu, Al and Ph is quantifi...
We investigate processing-microstructure relationships in the production of Al2O3 particle reinforce...
This paper studies attained microstructures and reactive mechanisms involved in vacuum infiltration ...
In the pressure infiltration processing of Metal Matrix Composites (MMCs), molten metal is injected ...
We explore the influence (i) of the interaction between aluminium and alumina, and (ii) of sodium im...
The work needed to mechanically drive molten metal into a porous solid preform when producing a comp...
In this dissertation, the capillary flow of liquid aluminum alloy in both wetting and wetting/non-we...
Porous skeletons prepared by sintering loose metal powders have been infiltrated with liquid metals....
Unidirectional pressure infiltration of porous preforms by molten metals is investigated numerically...
The degradation of refractory ceramics, used to contain and thermally insulate molten aluminum, in m...