RETURN

PRIOR CLIENTS:
[1] Naval Surface Warfare Center, MD; [2] Naval Ordnance Center, MD; [3] Martin Marietta Corp, FL & MD; [4] Amoco Corp, IL; [5] General Sciences Inc, PA; [6] AVX Corp, SC; [7] OEA Corp, CO; [8] Elgin Air Force Base, FL; [9] Army Aberdeen Edgewood, MD; [10] Stryker Instruments, MI; [11] Naval Surface Warfare Center, IN & VA; and [12] W.L. Gore & Assoc, MD.

TECHNICAL CAPABILITIES:

[1]

 A new approach to thermochemical calculation of condensed fuel oxider mixtures.

[2]

 A new technique for identification of the current carrying species in metastable solids.

[3]

 A novel low temperature preparation of Ni Lu ferrite and the properties of the ultrafine particles formed.

[4]

 A.C. electrical conductivity of potassium perchlorate.

[5]

 Action of transition metal oxides on composite solid propellant.

[6]

 Aging studies on carboxyl terminated polybutadiene (CTPB) binder and propellant.

[7]

 Antireflection properties of indium tin oxide (ITO) on silicon for photovoltaic applications.

[8]

 Assessment of the thermal decomposition and combustion behavior of double base propellant.

[9]

 Calorimetric values of composite propellants.

[10]

 Characterization of thermal and photo sublimation of organic explosives by thermobaragravimetric techniques.

[11]

 Chemical changes during the ageing and decomposition of composite solid propellants.

[12]

 Chemical microrocket construction for altitude control.

[13]

 Chemistry of combustion of double base propellants through sliver analysis.

[14]

 Chemistry of the incomplete decomposition of ammonium perchlorate (AP).

[15]

 Color center induced band gap shift in yttria stabilized zirconia.

[16]

 Combustion and thermal decomposition characteristics of composite solid propellants.

[17]

 Combustion and thermal decomposition of ammonium perchlorate aluminum composite pellets: mechanism for aluminium participation.

[18]

 Combustion and thermal decomposition of binary oxidizer system.

[19]

 Combustion of ammonium perchlorate aluminum mixtures.

[20]

 Combustion of ammonium perchlorate based propellants in presence of methyl ammonium perchlorates.

[21]

 Combustion studies on ammonium perchlorateshrimethylammonium perchlorate mixture.

[22]

 Condensed phase reactions in solid propellants.

[23]

 Contribution of condensed phase reactions in the combustion of solid rocket fuels.

[24]

 Correlation between combustion and decomposition of solid propellants.

[25]

 Correlation between heats of depolymerization and activation energies in the degradation of polymers.

[26]

 Crosslinking reaction of I, l'bis(glycidoxy methyl) ferrocene with carboxy terminated polybutadiene and its wetting effect.

[27]

 Crystal structure transformation in ammonium and alkali metal perchlorates.

[28]

 Crystal structure transformation in potassium acrylate.

[29]

 Curing reactions in elastomers 11 carboxy terminated polybutadiene.

[30]

 Curing reactions in plastic prepolymers and propellants - polystyrene.

[31]

 D.C. ionic conductivity of potassium azide.

[32]

 Defect sensitization of combustion and thermal decomposition of ammonium perchlorate: Effect of pelletizing pressure and dwell time.

[33]

 Determination of kinetic parameters from a single thermogram.

[34]

 Differential scanning calorimetric studies on thermal decomposition of ammonium perchlorate.

[35]

 Differential thermal analysis of hydrazine derivatives.

[36]

 Differential thermal analysis of potassium perchlorate.

[37]

 Dinitrogen complex of magnesium.

[38]

 DTA studies on the thermal oxidation and cross linking reactions of carboxy terminated polybutadiene.

[39]

 Dual role of metallic lithium in the initiation of vinyl polymerization.

[40]

 Effect of ageing on ballistic and mechanical property of propellants.

[41]

 Effect of anti oxidants on the storage stability of model composite propellant system.

[42]

 Effect of catalyst concentration on the burning rate of composite solid propellants.

[43]

 Effect of doping on the sublimation of ammonium perchlorate.

[44]

 Effect of electric field on ammonium perchlorate decomposition.

[45]

 Effect of electric field on thermal decomposition and combustion of composite solid propellants.

[46]

 Effect of floatation on coal combustion.

[47]

 Effect of intentional impurities on the thermal impurities on the thermal stability of nitronium perchlorate.

[48]

 Effect of lithium and ammonium flourides on ammonium perchlorate decomposition.

[49]

 Effect of MnO, on the thermal decomposition of ammonium perchlorate.

[50]

 Effect of physical and chemical treatment on the thermal decomposition of coal.

[51]

 Effect of polymer coating on the thermal decomposition of composite propellants oxidizers.

[52]

 Effect of pre treatment on the sublimation of ammonium perchlorate.

[53]

 Effect of preheating on the burning rate of solid propellants.

[54]

 Effect of prior gamma irradiation on thermal decomposition, ignition and combustion of coal.

[55]

 Effect of prior mechanical and thermal treatment on the thermal decomposition alkali metal perchlorates.

[56]

 Effect of prior mechanical and thermal treatment on the thermal decomposition and sublimation of cubic ammonium perchlorates.

[57]

 Effect of prior mechanical and thermal treatment on the thermal decomposition of orthorhombic ammonium perchlorate.

[58]

 Effect of prior ultraviolet irradiation on thermal decomposition and ignition of coal.

[59]

 Effect of reduction on Vicker's hardness of stabilized zirconia.

[60]

 Effect of storage temperatures on mechanical properties of composite solid propellants.

[61]

 Effect of the method of preparation on the reactivity of barium azide.

[62]

 Effect of trimethyl ammonium perchlorate on the decomposition and combustion of KP and KP Pu propellants.

[63]

 Effect of variables on the ignition delays of hydrazonelnitric acid systems.

[64]

 Effect on intentional impurities, ageing, particle size and pre irradiation on the TD of hydrazinium diperchlorate.

[65]

 Electrical conduction in ammonium and alkali metal perchlorates.

[66]

 Electrical conduction in ammonium perchlorate.

[67]

 Electrical conductivity of ammonium perchlorate.

[68]

 Electronic adsorption spectra of metallic azides, perchlorates and nitrates and their related explosive properties.

[69]

 Enthalpy and activation energy for the sublimation of solides involving proton transfer process.

[70]

 Eo w temperature formation of ferrites using metal oxalate hydrazinate precursor.

[71]

 Explosive sensitivity of methyl ammonium perchlorates.

[72]

 Frequency dependence of the electrical conductivity of MC104 (M = K, Rb, Cs) compounds.

[73]

 Hydrogen plasma induced color centers in barium flouride.

[74]

 Hydrogen plasma treated calcium flouride.

[75]

 Hypergolic ignition of various hydrazones with nitric acid.

[76]

 Ignition delay studies of hybrid propellants.

[77]

 Incomplete decomposition of alkali metal azides.

[78]

 Incomplete decomposition of ammonium oxalate.

[79]

 Indirect application of radioactive nuclei in analytical chemistry.

[80]

 Indirect application of radioactive nuclei in analytical chemistry.

[81]

 Influence of electric field on the low temperature thermal decomposition of ammonium perchlorate/polystyrene propellants.

[82]

 Influence of growth parameters on the reactivity of ammonium perchlorate.

[83]

 Initiation reactions in thermal polymerization of vinyl monomers in the molten state.

[84]

 Ionic conductance of potassium azide in the solid state.

[85]

 Is ammonium perchlorate in solid propellants under strain.

[86]

 Kinetic studies on thermal decomposition of polystyrene peroxide.

[87]

 Kinetics and mechanism of thermal decomposition of nitronium perchlorate.

[88]

 Kinetics and mechanism of thermal decomposition of tetramethyl ammonium nitrate.

[89]

 Lithium and sodium initiated transition polymerization of acrylamide.

[90]

 Low temperature cobaltite formation using mixed metal oxalate hydrazinate precursor.

[91]

 Low temperature process for ferrite synthesis.

[92]

 Mass spectrometric study of the thermal decomposition of ammonium perchlorate.

[93]

 Mass spectrometric study of the thermal decomposition of ammonium perchlorate.

[94]

 Mechanism for controlling the reactivity of alpha PbN.

[95]

 Mechanism of ageing of composite solid propellants.

[96]

 Mechanism of catalytic activity of metal oxides and chromites on ammonium perchlorate pyrolysis.

[97]

 Mechanism of the oxidative degradation of the binders during the ageing of composite solid propellants.

[98]

 Mechanism of uptake of impurities by azide crystals.

[99]

 Mechanistic studies on composite solid propellants.

[100]

 Mechanistic studies on pyrolysis and combustion of polystyrene/ammonium prechlorate propellants in presence of transition metal oxides.

[101]

 Mechanoformation of ammonium perchlorate solid solutions.

[102]

 Metal perchlorate ammines: Thermal and infrared studies.

[103]

 Metallic lithium initiated bulk polymerization of acrylonitrite.

[104]

 Molybdenum trioxide/silicon photodiodes.

[105]

 Nature of water in hydrazine salt hydrates.

[106]

 On colorization of polyacrylonitrile A NMR study.

[107]

 Optical absorption of electrolytically colored single crystals of yttria stablized zirconia.

[108]

 Patent: A new oxidizer for solid composite solid propellant.

[109]

 Patent: Air bag inflator gas compositions and inflator containing the same.

[110]

 Patent: Combustible Coatings as Protective delay barriers.

[111]

 Patent: Combustible Delay Barriers.

[112]

 Patent: Decomposition via Microwave Induced kotational Excitation Technology (MIRET).

[113]

 Patent: Low temperature synthesis of fine particles of ferrite ceramic materials, metals, and alloys.

[114]

 Patent: Low thrust force generator for space vehicle altitude control.

[115]

 Phoioelectrochemical cells incorporating molten salt electrolyte systems.

[116]

 Photochemical decomposition of barium azide.

[117]

 Photochemical decomposition of nitronium perchlorate.

[118]

 Photochemical decomposition of silver perchlorate.

[119]

 Photodecomposition of alpha PbN, in the solid state.

[120]

 Photodecomposition of ammonium oxalate.

[121]

 Photodecomposition of aqueous solutions of barium azide.

[122]

 Photodecomposition of solid metal azides.

[123]

 Photosynthetic production of H2 and H2O, on semiconducting oxide grains in aqueous solutions.

[124]

 Physico chernical properties of 1,2,5,7 tetrazacyclooctane (HMX), Electrical conductance, Part 1.

[125]

 Physico chemical properties of 1,3,5,7 tetrazacyclooctane (HMX), Spectra & LIM damage phenoma, Part 2.

[126]

 Preparation and characterization of hydrazinium derivatives, Part 1.

[127]

 Preparation and characterization of hydrazinium derivatives, Part 2.

[128]

 Quantitative assessment of the condensed phase heats of reaction in a double base propellant.

[129]

 Reaction intermediates during combustion and decomposition of some model solid rocket fuels.

[130]

 Relationship between enthalpy of point defect formation and other thermochemical properties of ionic salts.

[131]

 Role of alloys in the thermal decomposition and combustion of ammonium perchlorate.

[132]

 Role of aluminum magnesium alloys in humid aging of composite solid propellants.

[133]

 Role of condensed phase reaction in the ignition of composite solid propellants.

[134]

 Role of crystil imperfections in the thermal decomposition of sodium azide.

[135]

 Role of impurities in the sensitization of ammonium nitrate.

[136]

 Role of metal perchlorate ammines on AP decomposition.

[137]

 Role of point defects in the thermal decomposition of ammonium perchlorate.

[138]

 Role of transition metal flourides in ammonium perchlorate decomposition.

[139]

 Sensitivity behavior of barium azide.

[140]

 Simultaneous DTA TGA techniques for detonation characterization.

[141]

 Simultaneous DTA, TGA technique to characterize the explosivity of lead azide.

[142]

 Solid state thermal polymerization of sodium acrylate.

[143]

 Some features of solid propellant chemistry.

[144]

 Some observations of sublimation and decomposition of ammonium perchlorate.

[145]

 Some observations of the thermal stability of double base propellants.

[146]

 Storage stability of solid rocket fuels, Effect of temperature, Part 1.

[147]

 Storage stability of solid rocket fuels, Effect of oxidizer loadings, Part 2.

[148]

 Structure and explosivity sensitivity relation in ring substituted arlyammonium perchlorates.

[149]

 Structure and thermal stability relationship in arylk ammonium nitrate.

[150]

 Studies on the combustion of solid hydrazones with nitric acid.

[151]

 Studies on thermal decomposition of double base propellants.

[152]

 Studies on vacuum pyrolysis of ammonium perchlorates and ammonium perchlorate/polystyrene propellant in the presence of transition metal oxides.

[153]

 Study of the chemistry of scandium on a tracer scale with scandium 46.

[154]

 Study of the explosive behavior of barium azide.

[155]

 Sublimation and thermal decomposition of ammonium perchlorate.

[156]

 Sublimation of ammonium perchlorate.

[157]

 Synthesis and characterization of a new flouride derivative of hydrazine, N2H,HF.

[158]

 Synthesis and characterization of diperchlorate dihydrazine chromium (III) perchlorate.

[159]

 Synthesis and characterization of metal hydrazine nitrate, azide and perchlorate complexes.

[160]

 Synthesis of 1,3,546s (2 methyl l aziridinyl) methyl benzene.

[161]

 T differential scanning calorimetry study of the MCIO, (M Na, K, Rb, Cs and NH,) system.

[162]

 The effect of bis thieacetylacetonato Nickel (11) compounds on thermal oxidation of polyethylene.

[163]

 The role of defects in the thermal decomposition of barium azide.

[164]

 The role of lithium and magnesium perchlorate ammines on ammonium perchlorate decomposition.

[165]

 The role of transition metal oxides in the decomposition and explosion of aydammonium perchlorates.

[166]

 Thermal analysis of hydrazine perchlorate hydrates and ammoniates.

[167]

 Thermal analysis of hydrazinium metal sulphates and their hydrazinates.

[168]

 Thermal analysis of hydroxylammonium perchlorate.

[169]

 Thermal analysis of transition metal perchlorate hydrates.

[170]

 Thermal decomposition and combustion of amine: AP condensed mixtures.

[171]

 Thermal decomposition and combustion studies on potassium perchlorate/polystyrene propellant systems.

[172]

 Thermal decomposition and ignition of coal.

[173]

 Thermal decomposition of HMX.

[174]

 Thermal decomposition of alkali metal perchlorates.

[175]

 Thermal decomposition of alpha PbN.

[176]

 Thermal decomposition of ammonium perchlorate at low temperatures.

[177]

 Thermal decomposition of ammonium perchlorate based propellants.

[178]

 Thermal decomposition of hydrazinium diperchlorate.

[179]

 Thermal decomposition of hydrazinium monoperchlorate in solid state.

[180]

 Thermal decomposition of hydrazinium monoperchlorate in the molten state.

[181]

 Thermal decomposition of methyl ammonium perchlorates.

[182]

 Thermal decomposition of nitronium perchlorate.

[183]

 Thermal decomposition of sodium azide.

[184]

 Thermal decomposition of UAIH.

[185]

 Thermal decomposition studies on ammonium perchlorate polybutadiene composite propellants.

[186]

 Thermal decomposition studies on composite solid propellants.

[187]

 Thermal degradation of polystyrene.

[188]

 Thermal polymerisation of acrylamide in solid state.

[189]

 Thermal reactivity of ammonium perchlorate recrystallized from liquid ammonia.

[190]

 Thermal reactivity of ammonium perchlorates crystallized from solutions having different pH.

[191]

 Thermal reactivity of double based rocket propellants.

[192]

 Thermal reactivity of methyl ammonium nitrates.

[193]

 Thermoanalysis of ammonium perchlorate and iodiurn nitrate mixtures.

[194]

 Thermoanalytical studies of hydrazidocarbonate derivatives.

[195]

 Thermobarogravimetric (T13GA) technique to characterize sublimation processes I.

[196]

 Thermochernistry and lower combustion limit of ammonium perchlorate in presence of methlammonium perchlorates.

[197]

 Thermodynamical data on inorganic oxidizers and polymers.

[198]

 U.V. Photon induced color centers in ammonium perchlorate.