Add to ORKGAn investigation was undertaken to determine the effects of the hot-pressing variables (temperature, pressure, and time) on the density and grain size of hafnium carbide disks. The purpose was to provide information necessary for the production of high-density test shapes for the determination of physical and mechanical properties. Hot-pressing of -325 mesh hafnium carbide powder was accomplished with a hydraulic press and an inductively heated graphite die assembly. The ranges investigated for each variable were as follows: temperature, 3500 to 4870 F; pressure, 1000 to 6030 pounds per square inch; and time, 5 to 60 minutes. Hafnium carbide bodies of approximately 98 percent theoretical density can be produced under the following minimal c...
The effect of carbon source crystallite size on the formation of hafnium carbide (HfC) coating was i...
Hafnium carbide powder was synthesized by sol-gel polycondensation of hafnium chloride with citric a...
The effect of composition, sintering temperature and time on the properties of (Hf, Ti) C hardmetals...
Since hafnium carbide (HfC) has a melting point of 7029 deg. F, it may have many high-temperature ap...
High temperature mechanical properties of polycrystalline hafnium carbide containing 13- volume-perc...
Ceramic films are increasingly used to coat a large variety of materials and chemical vapour deposit...
Vaporization rates in vacuum of hot pressed tantalum carbide and hafnium carbide in temperature rang...
Metal carbide-graphite composite fabrication by hot pressing at temperatures to 3200 deg
Mechanical and thermodynamic properties of hot pressed tantalum carbide-graphite and niobium carbide...
M.Tech.A mixture of HfC and TiC powders and a (Hf,Ti)C powder have been hot pressed with 4wt% Ni. In...
Graphite-metal composites - hot pressing equipment modifications, hot pressing of calcined petroleum...
The microstructure and physical properties of hot pressed (Hf, Ti) C have been investigated with the...
Densification behavior and microstructure evolution of hot-pressed HfB2 were studied. when unmilled ...
A series of (TaC)100-x(HfC)x specimens were manufactured by two different processing techniques and ...
Hafnium carbide powder was synthesized by sol-gel polycondensation of hafnium chloride with citric a...
The effect of carbon source crystallite size on the formation of hafnium carbide (HfC) coating was i...
Hafnium carbide powder was synthesized by sol-gel polycondensation of hafnium chloride with citric a...
The effect of composition, sintering temperature and time on the properties of (Hf, Ti) C hardmetals...
Since hafnium carbide (HfC) has a melting point of 7029 deg. F, it may have many high-temperature ap...
High temperature mechanical properties of polycrystalline hafnium carbide containing 13- volume-perc...
Ceramic films are increasingly used to coat a large variety of materials and chemical vapour deposit...
Vaporization rates in vacuum of hot pressed tantalum carbide and hafnium carbide in temperature rang...
Metal carbide-graphite composite fabrication by hot pressing at temperatures to 3200 deg
Mechanical and thermodynamic properties of hot pressed tantalum carbide-graphite and niobium carbide...
M.Tech.A mixture of HfC and TiC powders and a (Hf,Ti)C powder have been hot pressed with 4wt% Ni. In...
Graphite-metal composites - hot pressing equipment modifications, hot pressing of calcined petroleum...
The microstructure and physical properties of hot pressed (Hf, Ti) C have been investigated with the...
Densification behavior and microstructure evolution of hot-pressed HfB2 were studied. when unmilled ...
A series of (TaC)100-x(HfC)x specimens were manufactured by two different processing techniques and ...
Hafnium carbide powder was synthesized by sol-gel polycondensation of hafnium chloride with citric a...
The effect of carbon source crystallite size on the formation of hafnium carbide (HfC) coating was i...
Hafnium carbide powder was synthesized by sol-gel polycondensation of hafnium chloride with citric a...
The effect of composition, sintering temperature and time on the properties of (Hf, Ti) C hardmetals...