Add to ORKGThe effect of Ni and Al additions on grain boundary silica in mechanically alloyed and hot isostatically pressed (HTPed) MoSi2 was investigated. Mechanical alloying Mo and Si in the absence of Al produced finely dispersed silica within a fine grained structure. Mechanically alloyed and HIPed Mo and Si with Ni and Al partially transformed the silica to crystalline oxide phases, including Al2O3. An improvement in high temperature properties is not expected due to the retention of a grain boundary silica film. Rapid grain growth resulted during HIPing, possibly due to the formation of a Ni/Fe/Al liquid phase
The objective of this project was to understand and improve high-temperature structural properties o...
We present evidence indicating that rapid, self-sustained, high-temperature reactions play an import...
Mo-Si-B silicides consisting of the phases {alpha}-Mo (Mo solid solution), Mo{sub 3}Si, and Mo{sub 5...
The literature on the processing, microstructure and properties of MoSi2 was briefly reviewed togeth...
Phase evolution during the mechanical alloying of Mo and Si elemental powders with a ternary additio...
Alumina is a candidate material for the reinforcement of molybdenum disilicide, potentially offering...
Molybdenum disilicide is a promising candidate material for high temperature structural uses. Howeve...
A computer model of the mechanical alloying process has been developed to simulate phase formation d...
The influence of Al on the phase formation between Ni and Si(001) was investigated by altering the A...
We have investigated the mechanical behavior of the following single-phase polycrystalline alloys wi...
The mechanical behavior of hot pressed MoSi2-based composites containing Mo5Si3, SiO2, CaO and TiC a...
The development of structure and properties in the C40 Mo(Si,Al)2/Al2O3, Mo(Si,Al)2/SiC and Mo(Si,Al...
The nanocomposite of MoSi2-Mo5Si3 powder was synthesized by mechanical alloying from Mo and Si powde...
The effects of nickel addition and hot-extrusion on the microstructure and tensile properties of in ...
Mo(Si1-xAlx)(2) compositions (x = 0-0.1) have been prepared by a modified SHS route under uniaxial h...
The objective of this project was to understand and improve high-temperature structural properties o...
We present evidence indicating that rapid, self-sustained, high-temperature reactions play an import...
Mo-Si-B silicides consisting of the phases {alpha}-Mo (Mo solid solution), Mo{sub 3}Si, and Mo{sub 5...
The literature on the processing, microstructure and properties of MoSi2 was briefly reviewed togeth...
Phase evolution during the mechanical alloying of Mo and Si elemental powders with a ternary additio...
Alumina is a candidate material for the reinforcement of molybdenum disilicide, potentially offering...
Molybdenum disilicide is a promising candidate material for high temperature structural uses. Howeve...
A computer model of the mechanical alloying process has been developed to simulate phase formation d...
The influence of Al on the phase formation between Ni and Si(001) was investigated by altering the A...
We have investigated the mechanical behavior of the following single-phase polycrystalline alloys wi...
The mechanical behavior of hot pressed MoSi2-based composites containing Mo5Si3, SiO2, CaO and TiC a...
The development of structure and properties in the C40 Mo(Si,Al)2/Al2O3, Mo(Si,Al)2/SiC and Mo(Si,Al...
The nanocomposite of MoSi2-Mo5Si3 powder was synthesized by mechanical alloying from Mo and Si powde...
The effects of nickel addition and hot-extrusion on the microstructure and tensile properties of in ...
Mo(Si1-xAlx)(2) compositions (x = 0-0.1) have been prepared by a modified SHS route under uniaxial h...
The objective of this project was to understand and improve high-temperature structural properties o...
We present evidence indicating that rapid, self-sustained, high-temperature reactions play an import...
Mo-Si-B silicides consisting of the phases {alpha}-Mo (Mo solid solution), Mo{sub 3}Si, and Mo{sub 5...