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Thermal methods play an important role among various measuring techniques used in the analysis of explosive materials. These methods are mostly used for the investigation and determination of thermal properties of energetic materials (e.g. melting process, polymorphic transformations, temperature of initiation, etc.), as well as to estimate thermal stability, and to study thermal decomposition. Furthermore, thermal methods can be also used for analytical purposes, such as identifcation of some commonly used high explosives, determination of their purity, determination of phlegmatiser content, etc. The aim of this work was to study the possibility of application of isothermal and non-isothermal thermogravimetry for determination of nitroglycerine content in double based propellants. It has been found out that thermogravimetry can be used not only to distinguish clearly between nitrocellulose and double based propellants, but also for rough determination of nitroglycerine content in double based propellants. The difference between an actual and experimentally determined content of nitroglycerine in double based propellants (i.e. accuracy of the method) is dependent on composition of propellant and data treatment method.
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Tom
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3--19
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Bibliogr. 23 poz.
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autor
autor
- Brodarski Institute - Marine Research & Advanced Technologies, Av. V. Holjevca 20, 10020 Zagreb, Croatia, ivona.famengo@hrbi.hr
Bibliografia
- [1] Haines P.J., Thermal Methods of Analysis – Principles, Application and Problems, Blackie Academic & Professional, London 1995.
- [2] Quintana J.R., Ciller J.A., Serna F.J., Thermal Behaviour of HMX/RDX Mixtures, Propellants, Explos., Pyrotech., 1992, 17, 106-109.
- [3] Zeman S., Thermogravimetric Analysis of Some Nitramines, Nitrosamines and Nitroesters, Thermochim. Acta, 1993, 230, 191-206.
- [4] Zeman S., Gazda Š., Štolceva A., Drab J., New Correlation of the Thermogravimetric Analysis Data of Some Commercial Explosives, ibid., 1993, 230, 177-189.
- [5] Zeman S., The Thermoanalytical Study of Some Aminoderivatives of 1,3,5-Trinitrobenzene, ibid., 1993, 216, 157-168.
- [6] Rajić M., Sućeska M., Influence of Ageing on Nitrocellulose Thermal Properties and Hazard Potential Figures-of-Merit, High Temperature – High Pressure, 2000, 32, 171-178.
- [7] Johnson D.C., Using Thermal Analysis for Pyrotechnic Reliability Predictions, Proc. 22nd International Pyrotechnics Seminar, Fort Collins, 15-19 July, IIT Research Institut, 1996, 227-234.
- [8] Reddy G.Om, Srinvasa Rao A.S., Stability Study on Pentaerythritol Tetranitrate, Propellants, Explos., Pyrotech., 1992, 17, 307-312.
- [9] Standard Test Method for Assessing the Thermal Stability of Chemicals by Methods of Differential Thermal Analysis, ASTM standard E, 1992, 537-86.
- [10] Kishore K., Thermal Decomposition Studies on Hexahydro-1,3,5-Trinitro-STriazine (RDX) by Differential Scanning Calorimetry, Propellants and Explos., 1977, 2, 78-81.
- [11] Hussain G., Rees G.W., Thermal Decomposition of RDX and Mixtures, Fuel, 1995, 74(2), 273-277.
- [12] Rajić M., Sućeska M., Kinetika Termičke Razgradnje Amonijevog Perklorata u Temperaturnom Području 240-250 °C, Kem. Ind,. 1998, 47(12), 437-441.
- [13] Stanković M., Kapor V., Petrović S., The Thermal Decomposition of Triple-Base Propellants, J. Therm. Anal. Cal., 1999, 56, 1383-1388.
- [14] Bannister W.W., Chen C.C., Chen E.B., Curby W.A., Damour P.L., Morales A., Thermal Analysis for Detection and Identification of Explosives and Other Controlled Substances, United States Patent, US, 2004.
- [15] Fiamengo I., Sućeska M., Matečić Mušanić S., Applicability of Thermal Methods for Identification of Homogeneous Propellants, Proc. 11th seminar “New Trends in Research of Energetic Materials”, Pardubice, Czech Republic, 2008, 515-523.
- [16] Stanković M., Vujović B., Filipović M., Capillary Gas Chromatography of Double Based Propellants, Chromatographia, 1996, 9(42), 593-594.
- [17] Krien G., Thermoanalytical Determination of Tetrazene in Primer Mixtures, Propellants, Explos., Pyrotech., 1979, 4, 53-5.
- [18] Sućeska M., Rajić M., Termoanalitičko Određivanje Trinitrotoluena u Smjesi s Heksogenom, Kem. Ind., 1998, 47(1), 11-16.
- [19] Sućeska M., Rajić M., Čuljak M., Characterisation and Quantitative Determination of Trinitrotoluene in Mixtures with Hexogen by Differential Scanning Calorimetry, Proc. 29th Int. Annual Conference of ICT, Karlsruhe, Germany, 1998, pp. 144/1-144/12.
- [20] Sućeska M., Rajić M., Analytical Application of Thermal Methods in the Field of Explosive Materials, Proc. 4th Seminar “New Trends in Research of Energetic Materials”, Pardubice, Czech Republic, 2001, 290-302.
- [21] Kohlbeck J.A., Determination of Nitroglycerin and Resorcinol in Double-base Propellant Following Separation by TLC, Anal. Chem., 1965, 37, 1282-1283.
- [22] Colon Y., Ramos C.M., Rosario S.V., Castro M.E., Hernandez S. P., Mina N., Ion Mobility Spectrometry Determination of Smokeless Powders on Surfaces, International Journal for Ion Mobility Spectrometry, 2002, 5(3), 127-131.
- [23] Fiamengo I., Sućeska M., Matečić Mušanić S., Applicability of Thermal Methods for Determination of Nitroglycerine Content in Double Based Propellants, Proc. 12th Seminar Pardubice “New Trends in Research of Energetic Materials”, Czech Republic, 2009, 526-534.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BAT1-0037-0010