about
Simple determination of performance of explosives without using any experimental data.A simple method to assess detonation temperature without using any experimental data and computer code.Accurate prediction of the toxicity of benzoic acid compounds in mice via oral without using any computer codes.Using molecular structure for reliable predicting enthalpy of melting of nitroaromatic energetic compounds.Predicting activation energy of thermolysis of polynitro arenes through molecular structure.A simple approach for predicting impact sensitivity of polynitroheteroarenes.A new approach to predict the condensed phase heat of formation in acyclic and cyclic nitramines, nitrate esters and nitroaliphatic energetic compounds.A reliable simple method to estimate density of nitroaliphatics, nitrate esters and nitramines.Reliable prediction of electric spark sensitivity of nitramines: a general correlation with detonation pressure.Simple correlation for predicting detonation velocity of ideal and non-ideal explosives.Prediction of detonation performance of CHNO and CHNOAl explosives through molecular structure.Predicting condensed phase heat of formation of nitroaromatic compounds.Simple method for prediction of activation energies of the thermal decomposition of nitramines.Theoretical prediction of condensed phase heat of formation of nitramines, nitrate esters, nitroaliphatics and related energetic compounds.Simple method for reliable predicting flash points of unsaturated hydrocarbons.Nanoparticles of zinc sulfide doped with manganese, nickel and copper as nanophotocatalyst in the degradation of organic dyes.A simple procedure for calculating condensed phase heat of formation of nitroaromatic energetic materials.Simple empirical method for prediction of impact sensitivity of selected class of explosives.A simple correlation for predicting heats of fusion of nitroaromatic carbocyclic energetic compounds.Reliable estimation of performance of explosives without considering their heat contents.Novel correlation for predicting impact sensitivity of nitroheterocyclic energetic molecules.Detonation temperature of high explosives from structural parameters.Velocity of detonation at any initial density without using heat of formation of explosives.Prediction of densities of acyclic and cyclic nitramines, nitrate esters and nitroaliphatic compounds for evaluation of their detonation performanceQuick estimation of heats of detonation of aromatic energetic compounds from structural parametersPrediction of shock sensitivity of explosives based on small-scale gap testNew method for calculating densities of nitroaromatic explosive compoundsApproximate prediction of melting point of nitramines, nitrate esters, nitrate salts and nitroaliphatics energetic compoundsNew approach for predicting melting point of carbocyclic nitroaromatic compoundsPrediction of impact sensitivity of nitroaliphatic, nitroaliphatic containing other functional groups and nitrate explosivesDetermining heats of detonation of non-aromatic energetic compounds without considering their heats of formationDetonation velocity of pure and mixed CHNO explosives at maximum nominal densityPrediction of heats of sublimation of nitroaromatic compounds via their molecular structureHeats of sublimation of nitramines based on simple parametersTheoretical prediction of electric spark sensitivity of nitroaromatic energetic compounds based on molecular structureThe simplest method for calculating energy output and Gurney velocity of explosivesA simple approach for determining detonation velocity of high explosive at any loading densityA new method for predicting the heats of combustion of polynitro arene, polynitro heteroarene, acyclic and cyclic nitramine, nitrate ester and nitroaliphatic compoundsImproved prediction of heats of sublimation of energetic compounds using their molecular structureA new approach to predict the strength of high energy materials
P50
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P50
name
Mohammad Hossein Keshavarz
@en
Mohammad Hossein Keshavarz
@nl
type
label
Mohammad Hossein Keshavarz
@en
Mohammad Hossein Keshavarz
@nl
prefLabel
Mohammad Hossein Keshavarz
@en
Mohammad Hossein Keshavarz
@nl