Add to ORKGThe silver toughened alumina ceramics, which were fabricated via a conventional ceramic processing route using commercially available alumina and silver oxide powders as the starting materials, exhibit a higher fracture toughness (6 to 9 MPamo.5) than the monolithic alumina ceramic ( 2.5 to 3.0 MPamo.5). The weak interfacial bonding between the silver inclusions and the alumina matrix is characterised by the occurrence of voids or pores at the interface, the formation of which is due to the high vapour pressure of molten silver at the sintering temperature. The thermal expansion mismatch between the metallic phase and the ceramic matrix generates residual strains in the composite structure. A microstructural study using in-situ TEM observat...
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In industry, the need to maximize energy efficiency depends on the availability of suitable advanced...
Iron aluminides are thermodynamically compatible with a wide range of ceramics such as carbides, bor...
The effect of interfacial structure on the mechanical properties of aluminum-ceramic composite mater...
The silver toughened alumina ceramics, which were fabricated via a conventional ceramic processing r...
Al2O3/Ag composite ceramics were fabricated by the use of mechanical milling and pressureless sinter...
This project describes the formation of Al2O3-Ag or Al2O3-Ti nanocomposites via high-energy planetar...
Iron aluminides with the B2 structure are highly oxidation and corrosion resistant. They are thermod...
The incorporation of a ductile second phase into a monolithic ceramic is a well-established tougheni...
Investigations have been carried out to determine ways of tailoring ceramic materials in order that ...
Alumina-based composites were fabricated by reaction sintering from two different sintering powder m...
It is well known that the addition of a small quantity of magnesia to alumina prevents abnormal grai...
An understanding of the deformation and fracture behaviour of ceramic materials is of considerable i...
Several metals have been proposed as second phases in ceramic matrix composites in order to improve ...
Co-continuous 63%Al2O3/37%Al(Si) composite, known as C4 composite, was produced by submersion of sil...
It is well known that the addition of a small quantity of magnesia to alumina prevents abnormal grai...
In industry, the need to maximize energy efficiency depends on the availability of suitable advanced...
Iron aluminides are thermodynamically compatible with a wide range of ceramics such as carbides, bor...
The effect of interfacial structure on the mechanical properties of aluminum-ceramic composite mater...
The silver toughened alumina ceramics, which were fabricated via a conventional ceramic processing r...
Al2O3/Ag composite ceramics were fabricated by the use of mechanical milling and pressureless sinter...
This project describes the formation of Al2O3-Ag or Al2O3-Ti nanocomposites via high-energy planetar...
Iron aluminides with the B2 structure are highly oxidation and corrosion resistant. They are thermod...
The incorporation of a ductile second phase into a monolithic ceramic is a well-established tougheni...
Investigations have been carried out to determine ways of tailoring ceramic materials in order that ...
Alumina-based composites were fabricated by reaction sintering from two different sintering powder m...
It is well known that the addition of a small quantity of magnesia to alumina prevents abnormal grai...
An understanding of the deformation and fracture behaviour of ceramic materials is of considerable i...
Several metals have been proposed as second phases in ceramic matrix composites in order to improve ...
Co-continuous 63%Al2O3/37%Al(Si) composite, known as C4 composite, was produced by submersion of sil...
It is well known that the addition of a small quantity of magnesia to alumina prevents abnormal grai...
In industry, the need to maximize energy efficiency depends on the availability of suitable advanced...
Iron aluminides are thermodynamically compatible with a wide range of ceramics such as carbides, bor...
The effect of interfacial structure on the mechanical properties of aluminum-ceramic composite mater...
