Topics
aluminaChemical substance
Critical experiments were performed on Al and MoO3 thermites. The diameter and alumina shell thickness of the Alnanoparticles were varied, and flame propagation velocities were measured. The results strongly support the melt-dispersion mechanism and contradict the diffusionoxidation mechanism. The parameters that control the oxidation rate and flame velocity are justified and directions for the synthesis of Alnanoparticles (which are opposite to the current directions based on diffusionoxidation) are suggested. An equation for the flame velocity versus Alnanoparticle geometrical parameters, thermomechanical properties, and synthesis parameters is formulated
Oxidation of aluminum nanopowders obtained by electro-exploded wires is studied. Particle size distr...
Micro and nano aluminum (Al) particles have drawn much attention for properties as metal fuels in en...
Aluminum-oxygen reaction is important in highly energetic and high pressure generating systems. Rece...
Critical experiments were performed on Al and MoO3 thermites. The diameter and alumina shell thickne...
Currently, two main known mechanisms of aluminum (Al) nanoparticle reaction are discussed in the lit...
International audienceAluminum nanopowders, oxidized at different temperatures using thermogravimetr...
The method to analyze the thermogravimetric data has been proposed. Based on the results of the anal...
To prompt the application of aluminum nanoparticles (ANPs) in combustion as the fuel additive and in...
An unexpected mechanism for fast reaction of Al nanoparticles covered by a thin oxide shell during f...
A general theory of ignition and combustion of nano- and micron-sized aluminum particles is develope...
A mathematical model of high-temperature oxidation of a nanosize aluminum particle has been presente...
The objective of this study was to investigate Al particle reactivity as a function of the Al2O3 she...
While the nano-sized energetic materials are featured with ultra-high energy density, the ubiquitous...
Differential-scanning calorimetry (DSC) and thermogravimetric analysis (TG) were used to study micro...
UnrestrictedThis dissertation uses multi-million atom molecular dynamics simulations to determine th...
Oxidation of aluminum nanopowders obtained by electro-exploded wires is studied. Particle size distr...
Micro and nano aluminum (Al) particles have drawn much attention for properties as metal fuels in en...
Aluminum-oxygen reaction is important in highly energetic and high pressure generating systems. Rece...
Critical experiments were performed on Al and MoO3 thermites. The diameter and alumina shell thickne...
Currently, two main known mechanisms of aluminum (Al) nanoparticle reaction are discussed in the lit...
International audienceAluminum nanopowders, oxidized at different temperatures using thermogravimetr...
The method to analyze the thermogravimetric data has been proposed. Based on the results of the anal...
To prompt the application of aluminum nanoparticles (ANPs) in combustion as the fuel additive and in...
An unexpected mechanism for fast reaction of Al nanoparticles covered by a thin oxide shell during f...
A general theory of ignition and combustion of nano- and micron-sized aluminum particles is develope...
A mathematical model of high-temperature oxidation of a nanosize aluminum particle has been presente...
The objective of this study was to investigate Al particle reactivity as a function of the Al2O3 she...
While the nano-sized energetic materials are featured with ultra-high energy density, the ubiquitous...
Differential-scanning calorimetry (DSC) and thermogravimetric analysis (TG) were used to study micro...
UnrestrictedThis dissertation uses multi-million atom molecular dynamics simulations to determine th...
Oxidation of aluminum nanopowders obtained by electro-exploded wires is studied. Particle size distr...
Micro and nano aluminum (Al) particles have drawn much attention for properties as metal fuels in en...
Aluminum-oxygen reaction is important in highly energetic and high pressure generating systems. Rece...
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