Add to ORKGThe fundamental thermophysical properties of Mo5Si3 have been investigated. The pronounced mismatch in the coefficient of thermal expansion (CTE) between the c- and a-directions of monolithic Mo5Si3 was reduced significantly by alloying additions. 25 at.% Cr reduced the CTE-mismatch to 1.45 in Mo3Cr2Si3, while 25 at.% Ti resulted in a mismatch of 1.32. Rietveld refinement of neutron powder diffraction data of the studied compounds reveals that Cr, having a smaller radius than Mo, has preference for the 4b chain sites of the D8m unit cell of Mo5Si3. In contrast, Ti atoms, being larger than Mo, occupy almost entirely the 16k sites in the unit cell interior. Compression tests of cast Mo5Si3 at 1573 K indicate that 25% Ti or Nb additions both r...
The literature on the processing, microstructure and properties of MoSi2 was briefly reviewed togeth...
The silicide intermetallic compounds in the Mo-Si system are of interest as high temperature structu...
The influence of substitutional alloying elements (Al, Nb and W) on the mechanical properties of MoS...
The fundamental thermophysical properties of Mo5Si3 have been investigated. The pronounced mismatch ...
The fundamental thermophysical properties of Mo5Si3 have been investigated. The pronounced mismatch ...
The role of alloying elements in the intermetallic compound Mo5Si3 was studied in the alloying syste...
The cracking behaviour of indented areas in monolithic Mo5Si3 and segregation in Cr-alloyed Mo5Si3 h...
A solubility range of 2.1 at.% Si at 1600 °C in Mo5Si3 was measured by energy dispersive spectrometr...
The ultra-high temperature structural intermetallic Mo5Si3 has been studied for alloy processing, ph...
The role of alloying elements in the intermetallic compound Mo<font size="-1"><sub>5</sub></font>Si<...
The materials processing, physical properties and mechanical behavior of an ultrahigh temperature st...
We have investigated the mechanical behavior of the following single-phase polycrystalline alloys wi...
The materials processing, physical properties and mechanical behavior of an ultra-high temperature s...
The mechanical behavior of hot pressed MoSi2-based composites containing Mo5Si3, SiO2, CaO and TiC a...
MoSi$\sb2$ is an intermetallic compound with potential use as a structural material in high temperat...
The literature on the processing, microstructure and properties of MoSi2 was briefly reviewed togeth...
The silicide intermetallic compounds in the Mo-Si system are of interest as high temperature structu...
The influence of substitutional alloying elements (Al, Nb and W) on the mechanical properties of MoS...
The fundamental thermophysical properties of Mo5Si3 have been investigated. The pronounced mismatch ...
The fundamental thermophysical properties of Mo5Si3 have been investigated. The pronounced mismatch ...
The role of alloying elements in the intermetallic compound Mo5Si3 was studied in the alloying syste...
The cracking behaviour of indented areas in monolithic Mo5Si3 and segregation in Cr-alloyed Mo5Si3 h...
A solubility range of 2.1 at.% Si at 1600 °C in Mo5Si3 was measured by energy dispersive spectrometr...
The ultra-high temperature structural intermetallic Mo5Si3 has been studied for alloy processing, ph...
The role of alloying elements in the intermetallic compound Mo<font size="-1"><sub>5</sub></font>Si<...
The materials processing, physical properties and mechanical behavior of an ultrahigh temperature st...
We have investigated the mechanical behavior of the following single-phase polycrystalline alloys wi...
The materials processing, physical properties and mechanical behavior of an ultra-high temperature s...
The mechanical behavior of hot pressed MoSi2-based composites containing Mo5Si3, SiO2, CaO and TiC a...
MoSi$\sb2$ is an intermetallic compound with potential use as a structural material in high temperat...
The literature on the processing, microstructure and properties of MoSi2 was briefly reviewed togeth...
The silicide intermetallic compounds in the Mo-Si system are of interest as high temperature structu...
The influence of substitutional alloying elements (Al, Nb and W) on the mechanical properties of MoS...