Add to ORKGThe ignition and propagation mechanism of the self-propagating high-temperature synthesis of several cobalt and niobium aluminides was investigated. Two propagation mechanisms were identified depending on the stoichiometry of the starting mixture. Al-rich compositions propagate through a dissolution-precipitation mechanism while Al-poor mixtures require solid state diffusion. The ignition temperatures were measured by means of microthermocouples in quasi-adiabatic conditions through experiments carried out in thermal explosion mode. Ignition temperatures were found to be characteristic of each system and to depend strongly on reactants particle size. Ignition energies for all compositions were evaluated through a mathematical model
The synthesis of AlNi from thermally activated equimolar powder mixtures of aluminium and nickel was...
Exothermicity associated with the synthesis of aluminides was utilized to obtain nickel, iron, and c...
The possibilities of metallurgical preparation of 40Nb-60Al and 15W-85Al intermetallic compounds (in...
The process of Combustion synthesis (CS) is based on the highly exothermic reaction by reactants,whi...
Structural components such as those used in gas turbines for energy conversion applications, are sub...
A recently developed numerical simulation of self-propagating high-temperature synthesis (SHS) using...
The formation of aluminides during the heating of Nb-Al powder mixtures with different initial compo...
none4noCombustion synthesis of aluminide intermetallics starting from reactive powders mixtures comp...
A high-speed electrothermography approach is applied to investigate the mechanism and kinetics for n...
The work presented here focuses on the ignition of single Ni- and Fe-coated Al particles in pure CO2...
The multi-point ignition of combustion synthesizing NiAl compound created by computational means has...
For obtaining MgB2 and AlB2 with nanometer size of coherent scattering area the technique based on t...
A promising way to synthesize new energy materials based on refactory inorganic compounds is self-pr...
An electric voltage pulse (duration of about 2ms) with an amplitude of up to 0.6V was generated duri...
While extensively studied for heating rates below 1.7 K/s and above 1000 K/s, the solid-state phase ...
The synthesis of AlNi from thermally activated equimolar powder mixtures of aluminium and nickel was...
Exothermicity associated with the synthesis of aluminides was utilized to obtain nickel, iron, and c...
The possibilities of metallurgical preparation of 40Nb-60Al and 15W-85Al intermetallic compounds (in...
The process of Combustion synthesis (CS) is based on the highly exothermic reaction by reactants,whi...
Structural components such as those used in gas turbines for energy conversion applications, are sub...
A recently developed numerical simulation of self-propagating high-temperature synthesis (SHS) using...
The formation of aluminides during the heating of Nb-Al powder mixtures with different initial compo...
none4noCombustion synthesis of aluminide intermetallics starting from reactive powders mixtures comp...
A high-speed electrothermography approach is applied to investigate the mechanism and kinetics for n...
The work presented here focuses on the ignition of single Ni- and Fe-coated Al particles in pure CO2...
The multi-point ignition of combustion synthesizing NiAl compound created by computational means has...
For obtaining MgB2 and AlB2 with nanometer size of coherent scattering area the technique based on t...
A promising way to synthesize new energy materials based on refactory inorganic compounds is self-pr...
An electric voltage pulse (duration of about 2ms) with an amplitude of up to 0.6V was generated duri...
While extensively studied for heating rates below 1.7 K/s and above 1000 K/s, the solid-state phase ...
The synthesis of AlNi from thermally activated equimolar powder mixtures of aluminium and nickel was...
Exothermicity associated with the synthesis of aluminides was utilized to obtain nickel, iron, and c...
The possibilities of metallurgical preparation of 40Nb-60Al and 15W-85Al intermetallic compounds (in...