بررسی روند کاهش وزن مواد منفجره PETN و پنتاستیت به روش های آنالیز حرارتی DTA/TG
Authors
Abstract:
In this research, the thermal stability and decomposition kinetics of pentaerythritol tetranitrate (PETN) and Pentastite explosives have been studied experimentally using non-isothermal differential thermal analysis (DTA) and thermo-gravimetric (TG) methods at heating rates of 4.0, 6.0, 8.0 and 10.0 °C/min. The kinetic parameter of activation energy (Ea) and critical ignition temperature for thermal decomposition of these explosives have been evaluated by the model-free methods proposed by the International Confederation for Thermal Analysis and Calorimetry (ICTAC). The Vyazovkin isoconversional method was used without need for the Arrhenius factor and reaction mechanism. The mechanisms of the reactions and mass loss route of the samples in different temperatures were predicted and compared with the results of advanced kinetics and technology solutions (AKTS) software. The mean kinetic parameter of activation energy of exothermic decomposition of the PETN and Pentastite explosives as calculated by the Kissinger, Ozawa, Ozawa-Flynn-Wall and KAS methods were 129.1 kJ/mol and 161.9 kJ/mol, respectively. These results were used to estimate the mass loss and predict the lifetime of the explosives. , and also they were statistically compared to experimental accelerated aging and AKTS results and showed satisfactory outcomes at > 100.0 °C.
similar resources
روشهای طیفسنجی در آنالیز همزمان مواد منفجره
Simultaneous analysis of explosives to identify, determine the purity and eliminate environmental pollution requires rapid, simple and cheap methods. Spectrophotometries method (UV-Vis), high-field proton nuclear magnetic resonance (1H-NMR), Raman spectroscopy and near infrared (NIR) are common methods that are applicable in two ways of direct and indirect in simultaneous analysis. In this poin...
full textمطالعه سه گانه سینتیکی واکنش تجزیه شدن حرارتی ماده منفجره اکفل به روش آنالیز حرارتی دیفرانسیلی غیر همدما
One of the characteristics of solid organic compounds and especially organic explosives is thermal behavior and kinetic of thermal decomposition. The activation energy, Arrhenius constant and model of solid state reaction as kinetic triplet can be obtained by study thermal decomposition kinetic in a solid state reaction. In the present work, the non-isothermal differential thermal analysis (DTA...
full textتعیین طول عمر ماده منفجره اکفول با استفاده از روش تجزیه حرارتی وزن سنجی(علمی-پژوهشی)
Determine the lifetime of explosive chemicals is one of the important research fields in recent years. Among the various methods of estimating life expectancy, methods based on solid-state kinetic analysis of the thermal decomposition of a chemical explosive are scientific and the accuracy of the method is confirmed. In this study, the determination of kinetic parameters of Ocfol explosive was ...
full textمطالعه سه گانه سینتیکی واکنش تجزیه شدن حرارتی ماده منفجره اکفل به روش آنالیز حرارتی دیفرانسیلی غیر همدما
یک از ویژگی های ترکیبات آلی جامد و بخصوص مواد منفجره آلی، رفتار حرارتی و سینتیک تجزیه حرارتی آنها می باشد. نتیجه مطالعه سینتیک واکنش های حالت جامد از جمله واکنش تجزیه شدن حرارتی، دست یابی به انرژی فعالسازی، ثابت آرنیوس و مدل واکنش حالت جامد می باشد. این اطلاعات به سه گانه سینتیکی معروف می باشند. در کار حاضر، روش آنالیز حرارتی دیفرانسیلی (dta) غیر همدما، جهت بررسی سه گانه سینتیکی تجزیه حرارتی ما...
full textمروری برساختار وخواص مواد منفجره مقاوم حرارتی (علمی-ترویجی)
Energetic materials specifically explosives material used extensively both for civil and military applications. Therefore probability explosion energetic material is unavoidable .The need to development of energetic materials with high performance and greater stability to heat, thermally stable explosives, is given priority in research development energetic materials, which are safer, more reli...
full textMy Resources
Journal title
volume 12 issue 4
pages 219- 230
publication date 2018-03
By following a journal you will be notified via email when a new issue of this journal is published.
No Keywords
Hosted on Doprax cloud platform doprax.com
copyright © 2015-2023