Add to ORKGA series of experiments have been carried out to test the validity of a chemical thermodynamic approach to predicting the effect of nitrogen alloying of stainless steel on its interaction with silicon nitride during sintering of sialon ceramic matrix composites. The approach has been shown to be valid and several compositions of sialon-steel composites have been fabricated. The steel particle size and the amount of steel in the composite are also shown to have an influence on the extent of densification. Conditions are described for optimum sintering of this type of material which has been shown to have application in several areas including ceramic-metal joining
Sialon - an advanced ceramic composed of silicon, aluminium, oxygen and nitrogen, is known to have h...
The composite formation of steel and ceramics is especially for medical applications of great intere...
A model is described for the densification of ceramics and particle-reinforced ceramic-matrix compos...
A series of experiments have been carried out to test the validity of a chemical thermodynamic appro...
The chemical interaction between a Si3N4 ceramic, with Al2O3 and MgO sintering additives, and DIN 10...
Sialon ceramics have been recently introduced for machining cast iron at very high speeds. However, ...
The reason for introducing a composite as an interlayer is because it can improve the fracture tough...
Compositional varieties of alpha-SiAlON a yttrium stabilized solid solution of alpha-Si(3)N(4), were...
The present paper is part of a wide ranging study on metal and TiN particulate reinforced sialon mat...
The melting, casting, forging or evaporation of the high purity alloys requires withstanding corrosi...
chemical reaction between silicon nitride ceramic and iron metal was studied experimentally with dif...
Some ceramics have the ability to form solid solutions. One such group are the sialons, which contai...
The chemical interaction of a Si3N4 ceramic with pristine and oxidised 100Cr6 steel was studied by m...
At the high cutting speeds typical for machining with ceramics and the concomitant high temperatures...
Sialon - an advanced ceramic composed of silicon, aluminium, oxygen and nitrogen, is known to have h...
The composite formation of steel and ceramics is especially for medical applications of great intere...
A model is described for the densification of ceramics and particle-reinforced ceramic-matrix compos...
A series of experiments have been carried out to test the validity of a chemical thermodynamic appro...
The chemical interaction between a Si3N4 ceramic, with Al2O3 and MgO sintering additives, and DIN 10...
Sialon ceramics have been recently introduced for machining cast iron at very high speeds. However, ...
The reason for introducing a composite as an interlayer is because it can improve the fracture tough...
Compositional varieties of alpha-SiAlON a yttrium stabilized solid solution of alpha-Si(3)N(4), were...
The present paper is part of a wide ranging study on metal and TiN particulate reinforced sialon mat...
The melting, casting, forging or evaporation of the high purity alloys requires withstanding corrosi...
chemical reaction between silicon nitride ceramic and iron metal was studied experimentally with dif...
Some ceramics have the ability to form solid solutions. One such group are the sialons, which contai...
The chemical interaction of a Si3N4 ceramic with pristine and oxidised 100Cr6 steel was studied by m...
At the high cutting speeds typical for machining with ceramics and the concomitant high temperatures...
Sialon - an advanced ceramic composed of silicon, aluminium, oxygen and nitrogen, is known to have h...
The composite formation of steel and ceramics is especially for medical applications of great intere...
A model is described for the densification of ceramics and particle-reinforced ceramic-matrix compos...