Add to ORKGThe influence of composition and gas flow rate at passivation on content of unoxidized metal, particle size and temperature on the metal nanopowder layer obtained by the method of semiconductor electric explosion has been studied. It is shown that the time of forced passivation can be tens times less in comparison with passivation at spontaneous gas diffusion in powder layer
The fabrication of semiconductor products for the microelectronic industry requires the deposition o...
The paper studies the penetration of nitrogen, oxygen, hydrogen, carbon, argon and krypton into copp...
The resource-saving technology of aluminum nitride obtaining during the combustion of aluminum nanop...
Oxidation of copper and aluminium nanopowders obtained by the method of electric explosion of wire i...
Al nanopowders (ANP) produced by plasma electrical explosion method possess an increased reactivity ...
By means of the methods of conductivity measurement and transmitting electron microscopy of sintered...
The chemical and physical mechanisms for the formation of passivation coatings on active metal nanop...
Extensive application of metal powder, particularly in nanosize could potentially lead to catastroph...
Results of DTA-TG-investigations and chemical analysis of electro-exploded aluminum nanopowders, coa...
Pyrotechnics consist of metallic powders as fuels and different oxidisers which generally have parti...
The review article presents the characteristics and parameters of an overstressed nanosecond dischar...
Experimental results of physicochemical and sorption properties of material samples obtained by elec...
The paper provides the results of experimental research into properties of tungsten nanopowders synt...
One of the primary nanoparticles production methods is electric explosion of wire (further - EEW) wh...
The effect of the method of aluminum nanopowder production on the aluminum products with water react...
The fabrication of semiconductor products for the microelectronic industry requires the deposition o...
The paper studies the penetration of nitrogen, oxygen, hydrogen, carbon, argon and krypton into copp...
The resource-saving technology of aluminum nitride obtaining during the combustion of aluminum nanop...
Oxidation of copper and aluminium nanopowders obtained by the method of electric explosion of wire i...
Al nanopowders (ANP) produced by plasma electrical explosion method possess an increased reactivity ...
By means of the methods of conductivity measurement and transmitting electron microscopy of sintered...
The chemical and physical mechanisms for the formation of passivation coatings on active metal nanop...
Extensive application of metal powder, particularly in nanosize could potentially lead to catastroph...
Results of DTA-TG-investigations and chemical analysis of electro-exploded aluminum nanopowders, coa...
Pyrotechnics consist of metallic powders as fuels and different oxidisers which generally have parti...
The review article presents the characteristics and parameters of an overstressed nanosecond dischar...
Experimental results of physicochemical and sorption properties of material samples obtained by elec...
The paper provides the results of experimental research into properties of tungsten nanopowders synt...
One of the primary nanoparticles production methods is electric explosion of wire (further - EEW) wh...
The effect of the method of aluminum nanopowder production on the aluminum products with water react...
The fabrication of semiconductor products for the microelectronic industry requires the deposition o...
The paper studies the penetration of nitrogen, oxygen, hydrogen, carbon, argon and krypton into copp...
The resource-saving technology of aluminum nitride obtaining during the combustion of aluminum nanop...