Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
A study has been undertaken on the effect of additives on the phase transition of ammonium nitrate(V) (AN). Results obtained using Differential Scanning Calorimetry (DSC) showed that organic compounds and potassium salts of organic compounds have an effect on the phase transition behavior of AN. The samples were further analyzed using infrared (IR) and powder X-ray diffraction (XRD). The mechanism of phase stabilization of AN by compounds of this kind was examined. The present study showed that the influence of additives on the phase transition of AN occurs through the polar groups that are involved in intermolecular interactions of orbital and electrostatic types that form new hydrogen bonds. AN exists in only one phase in the temperature range from 30 °C to +100 °C, when a potassium salt of organic compounds was added. However, with organic compounds, the III→II phase transition was changed. IR and XRD of composites are characterized by new intermolecular interactions. Compacted samples of AN containing potassium salts of organic compounds exhibited better stability than AN containing organic compounds to multiple cyclic changes within a temperature range. This we named ‘freezing and thawing analysis’. Additives have two functions on the AN phase transition. First, solid solutions of AN mixture were formed for K+ replacement of NH4+. Second, hydrogen bonds formed, which caused AN and salts of organic compounds to interact intimately.
Rocznik
Tom
Strony
736--754
Opis fizyczny
Bibliogr. 47 poz., rys., tab.
Twórcy
autor
- School of Energy and Power Engineering, Jiangsu University, Zhenjiang, 212013, China
autor
- School of Chemistry and Chemical Engineering, Jiangsu University, Zhenjiang, 212013, China
autor
- School of Energy and Power Engineering, Jiangsu University, Zhenjiang, 212013, China
Bibliografia
- [1] Kohga M., Nishino S., Burning Characteristics of Ammonium Nitrate-based Composite Propellants Supplemented with Ammonium Dichromate, Propellants Explos. Pyrotech., 2009, 34(4), 340-346.
- [2] Sinditskii V.P., Egorshev V.Y., Combustion Mechanism of Ammonium-nitrate-based Propellants, J. Propul. Power, 2008, 24(5), 1068-1078.
- [3] Akhavan J., The Chemistry of Explosives, Royal Society of Chemistry, 2011; ISBN 1849733309.
- [4] Hamilton B.K., Phase-stabilized Ammonium Nitrate, Patent US 6872265, 2005.
- [5] Highsmith T.K., Hinshaw C.J., Wardle R.B., Phase Stabilized Ammonium Nitrate and Method of Making Same, Patent US 5292387, 1994.
- [6] Jänecke E., Mixed Crystals, Solutions and Melts in the System (K,NH4)(Cl,NO3) (in German), Z. Angew. Chemie, 1928, 41(3), 916-924.
- [7] Oommen C., Jain S.R., Phase Modification of Ammonium Nitrate by Potassium Salts, J. Therm. Anal. Calorim., 1999, 55(3), 903-918.
- [8] Hasue K., Yoshitake K., Matsukawa M., Mixtures of Phase-stabilized Ammonium Nitrate and Tetrazoles as New Gas-generating Agent Compositions, Cent. Eur. J. Energ. Mater., 2016, 13(1), 247-260.
- [9] Simoes P.N., Pedroso L.M., Portugal A.A., Campos J.L., Thermal Decomposition of Solid Mixtures of 2-oxy-4,6-dinitramine-s-triazine (DNAM) and Phase Stabilized Ammonium Nitrate (PSAN), Thermochim. Acta, 2000, 364, 71-85.
- [10] Mathew S., Eisenreich N., Engel W., Thermal Analysis Using X-ray Diffractometry for the Investigation of the Solid State Reaction of Ammonium Nitrate and Copper Oxide, Thermochim. Acta, 1995, 269, 475-489.
- [11] Lang A.J., Vyazovkin S., Phase and Thermal Stabilization of Ammonium Nitrate in the Form of PVP-AN Glass, Mater. Lett., 2008, 62(12), 1757-1760.
- [12] Lang A.J., Vyazovkin S., Ammonium Nitrate-Polymer Glasses: A New Concept for Phase and Thermal Stabilization of Ammonium Nitrate, J. Chem. Phys. B, 2008, 112(36), 11236-11243.
- [13] Golovina N., Nechiporenko G., Nemtsev G., Zyuzin I., Manelis G.B., Lempert D., Ammonium Nitrate Phase State Stabilization with Small Amounts of Some Organic Compounds, Cent. Eur. J. Energ. Mater., 2009, 6(1), 45-56.
- [14] Golovina N., Nechiporenko G., Nemtsev G., Zyuzin I., Manelis G.B., Lempert D., Phase State Stabilization of Ammonium Nitrate for Creating an Oxidizing Agent for Smokeless Gas-generating Formulations Yielding No Toxic Combustion Products, Russ. J. Appl. Chem., 2007, 80(1), 24-30.
- [15] Merrill C., Dee L.A., Phase Stabilization of Ammonium Nitrate, 17th Nondestructive Evaluation Joint Subcommittee Meeting, Las Vegas, NV, 2009, 14-17.
- [16] Lee T., Chen J.W., Lee H.L., Lin T.Y., Tsai Y.C., Cheng Sh.L., Lee Sh.W., Hu J.C., Chen L.T., Stabilization and Spheroidization of Ammonium Nitrate: Co-crystallization with Crown Ethers and Spherical Crystallization by Solvent Screening, Chem. Eng. J., 2013, 225, 809-817.
- [17] Damse R.S., Waterproofing Materials for Ammonium Nitrate, Defence Sci. J., 2004, 54(4), 483-492.
- [18] Vargeese A.A., Joshi S.S., Krishnamurthy V.N., Use of Potassium Ferrocyanide as Habit Modifier in the Size Reduction and Phase Modification of Ammonium Nitrate Crystals in Slurries, J. Hazard. Mater., 2010, 180(1), 583-589.
- [19] Jain P., Sahariya J., Ahuja B.L., Compton Scattering Study and Electronic Structure of Different Phases of NH4NO3, Phys. Scripta, 2013, 87(6), 065102.
- [20] Sorescu D.C., Thompson D.L., Classical and Quantum Mechanical Studies of Crystalline Ammonium Nitrate, J. Phys. Chem. A, 2001, 105(4), 720-733.
- [21] Wu H.B., Chan M.N., Chan C.K., FTIR Characterization of Polymorphic Transformation of Ammonium Nitrate, Aerosol Sci. Tech., 2007, 41(6), 581-588.
- [22] Remya Sudhakar A.O., Mathew S., Thermal Behavior of CuO Doped Phasestabilised Ammonium Nitrate, Thermochim. Acta, 2006, 451(1), 5-9.
- [23] Wu H.B., Chan Ch.K., Effects of Potassium Nitrate on the Solid Phase Transitions of Ammonium Nitrate Particles, Atmos. Environ., 2008, 42(2), 313-322.
- [24] Giavani T., Bildsøe H., Skibsted J., Jakobsen H.J., 14N MAS NMR Spectroscopy and Quadrupole Coupling Data in Characterization of the IV—III Phase Transition in Ammonium Nitrate, J. Chem. Phys. B, 2002, 106(11), 3026-3032.
- [25] Rasulic G., Milanovic L.J., Jovanovic S., Influence of Frequent Rhombicmonoclinic Crystal Transformation and of Moisture Content on Ammonium Nitrate Crystal Transformation Energies, J. Therm. Anal. Calorim., 1988, 34(6), 1195-1205.
- [26] Vargeese A.A., Joshi S.S., Krishnamurthy V.N., Effect of Method of Crystallization on the IV–III and IV–II Polymorphic Transitions of Ammonium Nitrate, J. Hazard. Mater., 2009, 161(1), 373-379.
- [27] Kestila E., Valkonen J., DSC Studies on the Effect of Particle Size on NH4NO3 at Temperatures between 25 and 100 °C, Thermochim. Acta, 1994, 233(2), 219-222.
- [28] Davidson A.J., Chellappa R.S., Dattelbaum D.M., Yoo C.S, Pressure-induced Isostructural Metastable Phase Transition of Ammonium Nitrate, J. Phys. Chem. A, 2011, 115(42), 11889-11896.
- [29] Opoku M.K., Dlugogorski B.Z., Preparation and Characterisation of Potassium Ammonium Nitrates (Kx(NH4)-xNO3), 9th Int. Symp. Hazard, Prevention and Mitigation of Industrial Explosions (ISHPMIE), Poland, Cracow, 2012, July 22-24.
- [30] Sowell R.R., Karnowsky M.M., Walters L.C., The Transitions in Phases II–III–IV in High Purity Ammonium Nitrate, J. Therm. Anal. Calorim., 1971, 3(2), 119-129.
- [31] Langfelderova H., Ambrovic P., Study of the Influence of Experimental Conditions on the Course of the DSC Curve of Ammonium Nitrate (20-140 °C), Thermochim. Acta, 1982, 56(3), 385-389.
- [32] Vargeese A.A., Muralidharan K., Krishnamurthy V.N., Thermal Stability of Habit Modified Ammonium Nitrate: Insights from Iso-conversional Kinetic Analysis, Thermochim. Acta, 2011, 524(1), 165-169.
- [33] Kiiski H., Properties of Ammonium Nitrate Based Fertilizers, Helsinki University Printing House, 2009; ISBN 978-952-92-6179-6.
- [34] Harju M., Solid State Transition Mechanisms of Ammonium Nitrate Phases IV, III, II Investigated by Simultaneous Raman Spectrometry and Differential Scanning Calorimetry, Appl. Spectrosc., 1993, 47(11), 1926-1930.
- [35] Brown R.N., McLaren A.C., On the Mechanism of the Thermal Transformations in Solid Ammonium Nitrate, Philos. Trans. R. Soc. A, 1962, 266, 329-343.
- [36] Skarlis S.A., Nicolle A., Berthout D., Dujardin C., Granger P., Combined Experimental and Kinetic Modeling Approaches of Ammonium Nitrate Thermal Decomposition, Thermochim. Acta, 2014, 584, 58-66.
- [37] Choi C.S., Prask H.J., Single Crystal Neutron Diffraction Study of Ammonium Nitrate Phase III, Acta Crystallogr. B, 1982, 38(9), 2324-2328.
- [38] Lucas B.W., Ahtee M., Hewat A.W., The Crystal Structure of Phase II Ammonium Nitrate, Acta Crystallogr. B, 1979, 35(5), 1038-1041.
- [39] Lang J.A., Vyazovkin S., Ammonium Nitrate-polymer Glasses: A New Concept for Phase and Thermal Stabilization of Ammonium Nitrate, J. Phys. Chem. B, 2008, 112(36), 11236-11243.
- [40] Guo X., Tan S.H., Shang Z.J., Guo Y.C., Zhang Y.H., Confocal Raman Spectroscopy Studies on the Interactions Between NH4+, NO3− and H2O in Supersaturated NH4NO3 Droplets, Acta Phys.-Chim. Sin., 2012, 28(4), 766-772.
- [41] Masalova I., Kovalchuk K., Malkin A.Ya., IR Studies of Interfacial Interaction of the Succinic Surfactants with Different Head Groups in Highly Concentrated W/O Emulsions, J. Disper. Sci. Technol., 2011, 32(11), 1547-1555.
- [42] Ghaicha L., Leblanc R.M., Chattopadhyay A.K., Influence of Concentrated Ammonium Nitrate Solution on Monolayers of Some Dicarboxylic Acid Derivatives at the Air/water Interface, Langmuir, 1993, 9(1), 288-293.
- [43] Theoret A., Sandorey C., Infrared Spectra and Crystalline Phase Transitions of Ammonium Nitrate, Can. J. Chem., 1964, 42(1), 57-62.
- [44] Sorescu D.C., Thompson D.L., Classical and Quantum Mechanical Studies of Crystalline Ammonium Nitrate, J. Chem. Phys. A, 2001, 105(4), 720-733.
- [45] Chien W.-M., Solid State Phase Transition and Vapor Pressure Studies in Ammonium Nitrate-potassium Nitrate Binary System, PhD thesis, University of Nevada, Reno, 2003.
- [46] Zygmunt B., Buczkowski D., Influence of Ammonium Nitrate Prills Properties on Detonation Velocity of ANFO, Propellants Explos. Pyrotech., 2007, 32(5), 411-414.
- [47] Zygmunt B., Buczkowski D., Agriculture Grade Ammonium Nitrate as the Basic Ingredient of Massive Explosive Charges, Propellants Explos. Pyrotech., 2012, 37(6), 685-690.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-19faa10c-3420-4a3a-8e2f-ef025390d5fd