Keywords: احتراق فلز; Metal combustion; Heterogeneous reactions; Particle combustion; Burn rate; Catalytic additive;
مقالات ISI احتراق فلز (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: احتراق فلز; Ignition delays; Powder processing; Particle-seeded flame; Oxide layer; Metal combustion;
Keywords: احتراق فلز; Metal combustion; Particle combustion; Laser ignition; Burn time;
Keywords: احتراق فلز; Aluminum combustion; Metal combustion; Burn rate; Individual particle experiments; Laser ignition
Keywords: احتراق فلز; Metal combustion; Burn rates; Combustion temperature; Particle combustion
Keywords: احتراق فلز; Metal combustion; Particle temperature; Vapor-phase burning; Heterogeneous reactions;
Keywords: احتراق فلز; Metal combustion; Reactive materials; Bio-agent; Inactivation
Keywords: احتراق فلز; Heterogeneous combustion; Gas generators; Energetic materials; Metal combustion; Laser ignition
Keywords: احتراق فلز; Metal combustion; Particle burn time; Hydrogen production; Underwater propulsion;
Keywords: احتراق فلز; Metal combustion; Burn times; Combustion temperatures; Amorphous boron; Agglomerated powder
Lithium as energy carrier: CFD simulations of LI combustion in a 100Â MW slag tap furnace
Keywords: احتراق فلز; Energy storage; Metal combustion; Slag tap firing; Carbon to chemicals;
Combustion of Mg and composite Mg·S powders in different oxidizers
Keywords: احتراق فلز; Metal combustion; Particle combustion; Laser ignition; Burn rate;
Observations during Al:Zr composite particle combustion in varied gas environments
Keywords: احتراق فلز; Metal combustion; Microexplosion; Composite powder; Reactive materials; Heterogeneous combustion;
Experimental investigations on the combustion of lithium particles in CO2 and CO2-N2 mixtures
Keywords: احتراق فلز; Lithium combustion; Particles; Burnout times; Metal combustion; Energy storage;
Ignition and combustion of Al·Mg alloy powders prepared by different techniques
Keywords: احتراق فلز; Metal combustion; Alloys; Aluminum; Magnesium; Mechanical alloying; Reactive materials
Hydrogen generation from ammonia borane and water through combustion reactions with mechanically alloyed Al·Mg powder
Keywords: احتراق فلز; Heterogeneous combustion; Energetic materials; Gas generators; Metal combustion; Laser ignition; Hydrogen
Experimental characterization of the combustion of single lithium particles with CO2
Keywords: احتراق فلز; Lithium combustion; Particle imaging; Metal combustion; Energy storage; Reaction kinetics;
A numerical model of the combustion of single lithium particles with CO2
Keywords: احتراق فلز; Lithium combustion; Metal combustion; Numerical simulation; Energy storage
Suppression of sodium fires with liquid nitrogen
Keywords: احتراق فلز; LN2; Metal combustion; Pool fire; Suppression agent
Combustion of micron-sized particles of titanium and zirconium
Keywords: احتراق فلز; Metal combustion; Particle combustion; Laser ignition; Burn time
Aluminum particle combustion in turbulent flames
Keywords: احتراق فلز; Metal combustion; Particle burn rate; Turbulence intensity
Model of heterogeneous combustion of small particles
Keywords: احتراق فلز; Transition regime; Limiting sphere model; Metal combustion; Zirconium combustion
Ignition and combustion of mechanically alloyed Al–Mg powders with customized particle sizes
Keywords: احتراق فلز; Metal combustion; Alloys; Particle combustion; Laser ignition; Aerosol combustion
Combustion characteristics of micron-sized aluminum particles in oxygenated environments
Keywords: احتراق فلز; Metal combustion; Aluminum combustion; Optical pyrometry; Particle combustion dynamics; Burn rate
On the occurrence of two-stage combustion in alkali metals
Keywords: احتراق فلز; Metal combustion; Alkali metals; Vapour phase combustion; Equilibrium thermodynamics; Thermochemistry
Aluminum combustion in a solid rocket motor environment
Keywords: احتراق فلز; Metal combustion; Aluminum; Solid rocket motors
Metal particle combustion and nanotechnology
Keywords: احتراق فلز; Metal combustion; Nanotechnology; Nanoparticle; Synthesis; Assembly
Metal-based reactive nanomaterials
Keywords: احتراق فلز; Nanoaluminum; Energetic materials; Composite; Thermites; Metal combustion; Materials synthesis
Combustion characteristics of Mg vapor jet flames in CO2 atmospheres
Keywords: احتراق فلز; Mars jet engine; Metal combustion; Mg vapor flame; CO2 atmosphere; Combustion characteristics
Particle combustion rates for mechanically alloyed Al–Ti and aluminum powders burning in air
Keywords: احتراق فلز; Aerosol flame; Flame emission; Metal combustion; Mechanical alloying
Combustion of activated aluminum
Keywords: احتراق فلز; Activated aluminum; Propulsion; Metal combustion; Burn rate acceleration; Carbon coagulation; Agglomeration; Metal powder; Ignition
Fully dense nano-composite energetic powders prepared by arrested reactive milling
Keywords: احتراق فلز; Metal combustion; Energetic nano-materials; Thermites