Wyniki wyszukiwania - BazTech

1

Zastosowanie boru w materiałach wybuchowych. Cz. 2, Mieszaniny pirotechniczne

Magnuszewska Paulina, Maranda Andrzej, Florczak Bogdan, Grądziel Maciej

Przemysł Chemiczny

|

2020

|

T. 99, nr 4

540--547

PL

Przedstawiono przegląd wybranych publikacji naukowych i patentów dotyczących zastosowania boru w mieszaninach pirotechnicznych. Przeanalizowano mechanizmy zapłonu i spalania boru w skondensowanych układach utleniacz-składnik palny. Opisano mieszaniny pirotechniczne zawierające bor jako samodzielne paliwo lub częściowo zastępujące pył aluminiowy. Wypunktowano zalety i wady boru w aspekcie jego potencjalnego zastosowania w mieszaninach pirotechnicznych, które mogą być stosowane np. w opóźniaczach, generatorach zielonego światła lub zapłonnikach.

EN

A review, with 34 refs., of mechanisms of ignition and combustion of B in condensed oxidizer-fuel systems. Advantages and disadvantages of B use in pyrotechnics (delaying mixtures, green light generators, igniters) were discussed.

2

Thermal Decomposition, Ignition and Kinetic Evaluation of Magnesium and Aluminium Fuelled Pyrotechnic Compositions

Babar Z., Malik A. Q.

Central European Journal of Energetic Materials

|

2015

|

Vol. 12, no. 3

579--592

EN

This paper describes the thermal, kinetic and ignition behaviour of three pyrotechnic mixtures comprising Al + Ba(NO3)2, Mg + NH4ClO4, and Mg + KMnO4. Aluminium (Al) and magnesium (Mg) are metal fuels whereas barium nitrate, potassium permanganate and ammonium perchlorate are oxidants. The main objective of the paper is to assess the safety and relative reactivity of these pyrotechnic combinations. The experimental results indicate that aluminium powder reacts exothermically with the decomposition products of barium nitrate near 601 °C. A similar kind of exothermic reaction takes place between magnesium powder and ammonium perchlorate at 338 °C. Heat flow data obtained from multiple heating rate experiments were used to calculate the kinetic parameters, such as activation energy, reaction rate constant and frequency factor, using the Kissinger method. Critical ignition temperatures of all three compositions have been estimated in order to evaluate their thermal stability. The results show that all of these compositions are thermally stable and their relative reactivity decreases in the following order: Mg + NH4ClO4 > Mg + KMnO4 > Al + Ba(NO3)2.

3

Effects of Various Additives on the Characteristics of Bubbles Originating from the Combustion of Pyrotechnic Mixtures

Ouyang D.-H., Duan D.-L., Zou Y.-X

Central European Journal of Energetic Materials

|

2014

|

Vol. 11, no. 4

603--611

EN

The bubbling behaviour originating from the combustion of pyrotechnic mixtures of KClO4/Mg-50%Al alloy, and with additives such as nitrocellulose (NC) and urotropine, were studied by high speed photography. The results revealed that with the addition of the additives the combustion pressure and the gas flow rates increased in the order KClO4/Mg-50%Al/NC (3) > KClO4/Mg-50%Al/urotropine (2) > KClO4/Mg-50%Al (1). Additionally, it is confirmed that the bubbling phenomena can be classified into various stages, i.e. single bubbling, pairing and single coalescence, double coalescence and so on.

4

Effect of Different Binders on the Combustion Characteristics of Ba(NO3)2/Mg-containing Pyrotechnic Mixtures

Ouyang D.

Central European Journal of Energetic Materials

|

2013

|

Vol. 10, no. 2

209--215

EN

The combustion characteristics of Ba(NO3)2/Mg with binders such as phenolic resin (PR) and nitrocellulose were studied experimentally using an IGA-140 non contact, far-infrared thermometer and transient intensity testing instrument. The results revealed that the burn temperature, luminous intensity and burn rate of the pyrotechnic mixtures with PR (1594.5 °C, 47235.6 cd, 12.5 mm/s) were all larger than the NC system (1432.6 °C, 3242.9 cd, 9.0 mm/s), which is due to differences in the decomposition progress of the two binders that led to substantial differences in the loss of reaction energy and the exothermic reaction between the phenolic resin and the oxidizer before the Mg-oxidizer reaction.

5

Zjawisko rozkładu fizyko-chemicznego mieszanin pirotechnicznych w zamkniętych (hermetycznych) pojemnikach

Milewski E., Brzyski A., Szymanowski J., Miszczak M., Błachnio B.

Problemy Techniki Uzbrojenia

|

1998

|

R. 27, nr 65

71--78

PL

W artykule przedstawiono objawy rozkładu elementów wykonanych z różnych mieszanin pirotechnicznych wchodzących w skład wybranych rodzajów amunicji. Dokonano analizy przyczyn obserwowanych zjawisk, które określa się potocznie pojęciem "gazowania mieszanin pirotechnicznych".