Add to ORKGThe combustion characteristics which include ignition time and burning time in environments having different temperatures, of mechanically alloyed ultrafine-grained Al-Mg powders was investigated. The burning rate depends on particle size, and it takes place in several stages which are vapor/diffusional and surface oxidation stages, and an addition of a metal with lower ignition temperature facilitates particle combustion. X-ray diffraction (XRD) patterns were recorded from the as-milled powders of all the compositions to determine if any structural occurreds ocured in the powders after milling. The XRD patterns from the Al-20 at.% Mg showed the presence of a single phase with an fcc structure indicating that a supersaturated solid solution...
Surface reactions during atomization and consolidation of pure Al and the alloys Al2Mg, Al5Mn2.5Cr, ...
Gas-atomized powders are frequently used in metal additive manufacturing (MAM) processes. During con...
The nanosized powders have gained attention to produce materials exhibiting novel properties and for...
The paper studies dispersion, oxidation degree, burning rate and combustion heat in high-energy mixt...
This work presents an experimental investigation of the combustion characteristics of micron scale a...
Agglomeration reduction techniques are important field in solid propellant industry, Large agglomera...
Air-atomized pure aluminium powder with 15 at.% MgB2 was mechanically milled (MMed) by using a vibra...
Aluminum added to propellants, explosives, and pyrotechnics, boosts their energy density. Different ...
In this paper presents the results of studies of Al-Mg alloy depending on the time of mechanical act...
Metal additives have been widely used in combustion applications such as solid rocket motors and hig...
Aluminum is a promising metal fuel for solid propellants due to the high heat of combustion and prop...
Nano-aluminized propellants are investigated and compared with micro-aluminized propellants in order...
Mechanical milling of aluminum powders with two immiscible liquids, acetonitrile and hexane, produce...
Additions of Sc to an Al-Mg matrix were investigated, paying particular attention to the influence o...
Aluminum and metal-oxide powders were mixed using mechanical alloying. Exothermic displacement react...
Surface reactions during atomization and consolidation of pure Al and the alloys Al2Mg, Al5Mn2.5Cr, ...
Gas-atomized powders are frequently used in metal additive manufacturing (MAM) processes. During con...
The nanosized powders have gained attention to produce materials exhibiting novel properties and for...
The paper studies dispersion, oxidation degree, burning rate and combustion heat in high-energy mixt...
This work presents an experimental investigation of the combustion characteristics of micron scale a...
Agglomeration reduction techniques are important field in solid propellant industry, Large agglomera...
Air-atomized pure aluminium powder with 15 at.% MgB2 was mechanically milled (MMed) by using a vibra...
Aluminum added to propellants, explosives, and pyrotechnics, boosts their energy density. Different ...
In this paper presents the results of studies of Al-Mg alloy depending on the time of mechanical act...
Metal additives have been widely used in combustion applications such as solid rocket motors and hig...
Aluminum is a promising metal fuel for solid propellants due to the high heat of combustion and prop...
Nano-aluminized propellants are investigated and compared with micro-aluminized propellants in order...
Mechanical milling of aluminum powders with two immiscible liquids, acetonitrile and hexane, produce...
Additions of Sc to an Al-Mg matrix were investigated, paying particular attention to the influence o...
Aluminum and metal-oxide powders were mixed using mechanical alloying. Exothermic displacement react...
Surface reactions during atomization and consolidation of pure Al and the alloys Al2Mg, Al5Mn2.5Cr, ...
Gas-atomized powders are frequently used in metal additive manufacturing (MAM) processes. During con...
The nanosized powders have gained attention to produce materials exhibiting novel properties and for...