Advances in Synthesis of Metallic, Oxidic and Composite Powders
English[eng]
Ti6Al4V||HDH||powder metallurgy||powder synthesis||ZnO||ultrasonic spray pyrolysis||influential parameters||formation mechanism||structure||morphologies||characterization||TEM||HRTEM||Mo silicide||Mo5Si3||spheroidizing||powder||inductively coupled thermal plasma||MgCO3-powder||synthesis||CO2- absorption||olivine carbonation||autoclave||thermal decomposition||CO2 utilization||vanadium precipitation||vanadium oxides||vanadium-bearing shale||vanadium strip liquor||copper||electrolysis||hydrogen||SEM||XRD||PSD||tribology materials||tungsten disulfide||tungsten trioxide||silica||precipitation||uranium||zirconolite||brannerite||betafite||leaching||kinetics||acid mine drainage||iron||aluminium||coagulation||water treatment||electrocatalysis||supported Pt nanoparticles||Pt/TiO2 synthesis||Titanium oxide colloid||acid mine drainage (AMD)||flotation tailings||AMD neutralization||metals’ precipitation||polluted site remediation||synergy of processes||Al-Ti alloy||electrochemical co-deposition||chloroaluminate melt||ammonium perrhenate||rhenium||disproportionation reaction||hydrogen reduction||oxide||nanocomposites||alumina||thermochemistry||polycrystalline diamond||cobalt||ultrasound||aqua regia||polycrystalline diamond blanks