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Bohn M.A. Volk F. Adaibatische Selbstaufheizung bei Treib-und Explosivstoffen. 24th Annual Conference of ICT, Karlsruhe June 93 The Accelerating Rate Calorimeter has been used to study several explosives and propellants (PETN, NQ, TAGN, RDX, TNT, AN, GAP, GP & LOVA types). Kinetic calculations were carried out, data was analysed with Wood's bath data. Results from compositions is shown in graphical form.
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Bohn M.A. Adiabatic Self Heating of Propellants and Explosives
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Bohm M.A. Heat Generation of Propellants (German)
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Bohn M.A. Heat Generation of Propellants & Explosives, Int. Symp on Energetic Materials Technology, Orlando, USA. March 94 The Accelerating Rate Calorimeter has been used to study several explosives and propellants (PETN, NQ, TAGN, RDX, TNT, AN, GAP, GP & LOVA types). Kinetic calculations were carried out, data was analysed with Wood's bath data. Results from compositions is shown in graphical form.
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Bohn M.A. Thermal Stability of HNF Investigated by Mass Loss and Heat Generation in the Temperature Range 50oC to 80oC and Lifetime Predictions. 36th International Annual Conference of ICT & 32nd International Pyrotechnics Seminar, Karlsruhe, Germany, June 28 – July 1, 2005
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Bunyan P.F. Tod D.A Accelerating Rate Calorimetry Experiments on Energetic Materials: Obtaining Time to Maximum Rate Plots on Larger Samples This paper presents experimental results obtained from some ‘oversized’ energetic material samples and describes how partial exotherm data, obtained prior to ignition, may be processed in the absence of experimental maximum rate data and then used to construct time to maximum rate plots.
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Bunyan P.F. Tod D.A. Kavanagh G. Characterisation of Thermal Runaway Reactions in Energetic Solid Materials Using Accelerating Rate Calorimetry This paper will present ARC results obtained on a number of highly energetic solids and discuss the critical aspects of both experimental technique and data interpretation which should be applied to systems of this type in order to obtain reproducible results and valid time to maximum rate information. Bunyan P.F. Griffiths T.T. Norris V.J. Combined Use of Adiabatic Calorimetry and Microcalorimetry for Quantifying Propellant Cook-off Hazards This paper was presented at the 3rd International Symposium on the Heat Flow Calorimetry of Energetic Materials, French Lick Springs, Indiana, USA – April 8-10th 2002. Davis D.D. Wedlich R.C. Kinetics and Mechanism of the Thermal Decomposition of Monomethylhydrazine by A.R.C. Thermochimica Acta 175 189-198 (1991) Accelerating Rate Calorimeter study of Monomethyl-hydrazine, widely used in aerospace industry e.g. in NASA space shuttle. Davis D.D. Wedlich R.C. Martin N.B. Transition Metal Catalysis of the Heterogeneous Decomposition of Hydrazine: Adiabatic Dinetics by Accelerating Rate Calorimetry. Thermochimica Acta 175 175 (1991) Kinetic study of Hydrazine decomposition and effect of added metal by Accelerating Rate Calorimeter. Results indicate catalysed reaction. Fukuda T. Suzuki N. Tachiya H. Nakatsuka K. Dilution Method for the Estimation of Stability of Nitrocellulose. 14th Int. Annual Conf. of ICT, Karlsruhe 1983 Accelerating Rate Calorimeter data presented from several samples of Nitrocellulose plus comparison with data from several other tests.
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