Detonation Velocity Determinations and Fragment Velocity Determinations of Varied Explosive Systems and Condit

Detonating code is a flexible code with an explosive core. It is used to transmit the ignition of explosives with high detonation velocity in the range of 5.5 to 7 km/s. However, it is difficult to use detonating code for the explosive welding of common metals since the horizontal point velocity usually exceeds the sound velocity. Hence, in the present work, a new method using underwater shock wave generated by the detonation of detonating code was tried. The details of the experimental parameters and the results are presented. From the results it is observed that the above technique is suitable to weld thin metal plates with relatively less explosives.

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Estimation of Influence of Explosive Characteristics of Emulsion Explosives on Shotpile Width

E3S Web of Conferences ◽

10.1051/e3sconf/20185601003 ◽

2018 ◽

Vol 56 ◽

pp. 01003

Author(s):

Victor Sinitsyn ◽

Pavel Menshikov ◽

Vyacheslav Kutuev

Keyword(s):

Detonation Velocity ◽

Dynamic Compression ◽

Point Of View ◽

Head Part ◽

Detonation Pressure ◽

Emulsion Explosives ◽

Clastic Rocks ◽

Total Magnitude ◽

Efficient Type ◽

Points Of View

The article deals with the question of the effect of explosive characteristics of emulsion explosives on the shotpile width. Currently, there are two main points of view to select an efficient type of explosive, which contributes to the qualitative destruction (fragmentation) of coarse clastic rocks. The first is based on the assumption that the detonation velocity of explosives must correspond to the break-down point of the rock (dynamic compression). Another point of view is that the detonation pressure of explosives determines only the head part of the pulse, on which the rock fragmentation is dependent only near the charge, in the contact zone around the borehole. The fragmentation of the entire rock volume within a given borehole array depends on the total magnitude of the explosion pulse, determined not by the detonation velocity, but by the total energy reserve of the explosive charge. Experimental explosions with some of the most common industrial explosives have been carried out in the current conditions of blasting of borehole charges by various types of industrial explosives from the point of view to select the most important parameter, which determines its influence on the shotpile width The investigations have been carried out according to the data obtained to establish that the energy properties of explosives (heat of explosive transformation and density of explosives) determine the decisive influence on the shotpile width, and the operability, the volume of the released gases, the detonation velocity for the change in the shotpile width have very little effect and may not be taken into account in calculations for the prediction of the shotpile.

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Effect of Composite Emulsifiers on Thermal Decomposition Characteristics and Detonation Velocity of HANFO Emulsion Matrices

Propellants Explosives Pyrotechnics ◽

10.1002/prep.202000007 ◽

2020 ◽

Vol 45 (9) ◽

pp. 1465-1471

Author(s):

Hong‐wei Li ◽

Zhan Lei ◽

Ji‐chang Gui

Keyword(s):

Thermal Decomposition ◽

Detonation Velocity

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A First-Order Linear Model for the Estimation of Detonation Velocity

Journal of Energetic Materials ◽

10.1080/07370652.2010.495107 ◽

2011 ◽

Vol 29 (1) ◽

pp. 7-25 ◽

Cited By ~ 4

Author(s):

Lemi Türker

Keyword(s):

Linear Model ◽

Detonation Velocity ◽

Order Linear ◽

First Order

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Investigation of low detonation velocity emulsion explosives

Combustion Explosion and Shock Waves ◽

10.1007/s10573-009-0074-9 ◽

2009 ◽

Vol 45 (5) ◽

pp. 618-626 ◽

Cited By ~ 8

Author(s):

V. V. Sil’vestrov ◽

A. V. Plastinin

Keyword(s):

Detonation Velocity ◽

Emulsion Explosives

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A Novel Melt Cast Composite Booster Formulation Based on DNTF/TNT/GAP-ETPE/Nano-HMX

Journal of Chemistry ◽

10.1155/2016/6521913 ◽

2016 ◽

Vol 2016 ◽

pp. 1-5 ◽

Cited By ~ 1

Author(s):

Shuo Yu ◽

Hequn Li

Keyword(s):

Detonation Velocity ◽

Thermoplastic Elastomer ◽

High Energy ◽

Safety Performance ◽

Detonation Waves ◽

Small Scale ◽

Mass Ratio ◽

Critical Detonation Diameter ◽

Gap Test ◽

The Impact

To obtain the melt cast booster explosive formulation with high energy and low critical detonation diameter, melt cast explosives were designed by 3,4-bis(3-nitrofurazan-4-yl)furoxan (DNTF)/2,4,6-trinitrotoluene (TNT)/glycidyl azide polymer-energetic thermoplastic elastomer (GAP-ETPE)/nano-1,3,5,7-tetranitro-1,3,5,7-tetraazacyclooctane (HMX)/Aristowax. Furthermore, the impact sensitivity, small scale gap test, rheological properties, propagation reliability, and detonation velocity were measured and analyzed. The results show that when the mass ratio of DNTF/TNT/GAP-ETPE/nano-HMX/Aristowax is 34.2/22.8/2/40/1, not only does it indicate excellent rheological property but it has a brilliant safety performance as well. Moreover, it can propagate the detonation waves successfully in the groove at 0.7 mm × 0.7 mm. When the charge density in the groove is 1.70 g·cm−3, its detonation velocity can reach 7890 m·s−1.

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The Detonation Velocity-Loading Density Relation for Selected Explosives and Mixtures of Explosives

10.21236/ada121975 ◽

1982 ◽

Author(s):

Donna Price

Keyword(s):

Detonation Velocity ◽

Density Relation

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The influence of temperature on the detonation velocity of selected emulsion explosives

Journal of Energetic Materials ◽

10.1080/07370652.2019.1702739 ◽

2019 ◽

Vol 38 (3) ◽

pp. 336-347

Author(s):

Piotr Mertuszka ◽

Krzysztof Fuławka ◽

Mateusz Pytlik ◽

Michał Szastok

Keyword(s):

Detonation Velocity ◽

Emulsion Explosives ◽

Influence Of Temperature ◽

Influence Of Temperature On

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The effect of different additives on safety manipulation of cis-1,3,4,6-tetranitrooctahydroimidazo-[4,5-d]imidazole (BCHMX)

MATEC Web of Conferences ◽

10.1051/matecconf/201819203003 ◽

2018 ◽

Vol 192 ◽

pp. 03003 ◽

Cited By ~ 2

Author(s):

Ahmed K. HUSSEIN ◽

Ahmed ELBEIH ◽

Svatopluk ZEMAN ◽

Marcela JUNGOVA

Keyword(s):

Detonation Velocity ◽

Positive Influence ◽

The Other ◽

Polydimethyl Siloxane ◽

Explosive Strength ◽

Cyclic Nitramines

In this work, new cyclic nitramine named cis-1,3,4,6-tetranitrooctahydroimidazo-[4,5-d]imidazole (BCHMX) was premixed with insensitive explosives (3-nitro-1,2,4-triazol-5-one, NTO and1,1-diamino-2,2-dinitroethene, FOX) and with two cyclic nitramines (1,3,5-trinitro-1,3,5-triazinane, RDXand, 1,3,5,7-tetranitro-1,3,5,7-tetrazocane, HMX) and bonded by polydimethyl-siloxane (PDMS) binder.Impact and friction sensitivities were evaluated. Detonation velocity was measured and the detonationcharacteristics were calculated by EXPLO 5 thermodynamic code. Relative explosive strength wasdetermined by using the ballistic mortar test. The results showed a great positive influence on the sensitivityof BCHMX due to the addition of the insensitive explosive (NTO, FOX-7) however the performance wasdecreased. On the other side, mixing the nitramines improved the performance with reduction of BCHMXsensitivity. PDMS binder succeed to decrease the sensitivity of all the studied mixtures.

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