2 edition of Initiation of solid explosives by impact found in the catalog.
Initiation of solid explosives by impact
German Tikhonovich AfanasК№ev
by Israel Program for Scientific Translations; [available from the U. S. Dept. of Commerce, National Technical Information Service, Springfield, Va.] in Jerusalem
Written in English
|Statement||[by] G. T. Afanasʹev and V. K. Bobolev. Translated from Russian [by I. Shechtman. Edited by P. Greenberg].|
|Series||NASA TT,, F-623, NASA technical translation ;, F-623.|
|Contributions||Bobolev, V. K. joint author.|
|LC Classifications||TL507 .U745 no. 623, TP270 .U745 no. 623|
|The Physical Object|
|Pagination||vii, 113 p.|
|Number of Pages||113|
|LC Control Number||77611797|
EXPLOSIVES This copy is a reprint which includes current pages from Changes 1 through 4. HEADQUARTERS, DEPARTMENT OF THE ARMY SEPTEMBER TM C4 Change) HEADQUARTERS) DEPARTMENT OF THE ARMY No. 4) Washington, D.C., 25 September MILITARY EXPLOSIVES. Pulsed Laser Induced Decomposition of Energetic Polymers: Comparison of ultraviolet ( nm) and infrared ( μm) initiation Yehuda Haas Yeshayahu Ben‐Eliahu.
1. EXPLOSIVES - ACETONE PEROXIDE (tricycloacetone peroxide) (original source - "kitchen improvised blasting caps") 1. Go to the bank and take $20 out 2. Head to the nearest chemist/pharmacy, go up to the counter and ask for 6% peroxide, the person will take you to where it is, buy as much as wanted - $ per ml. NOTE- all $ are Size: KB. Introduction to Explosives FOR OFFICIAL USE ONLY HMX: Analysis and Trends Most powerful solid explosive produced on large scale in U.S. –Domestically only manufactured in the Holston Army Ammunition Plant in Kingsport, TN –Outside of U.S. widely manufactured for both military and commercial uses.
NEXT GENERATION EXPERIMENTS AND MODELS FOR SHOCK INITIATION AND DETONATION OF SOLID EXPLOSIVES Craig M. Tarver Lawrence Livermore National Laboratory P.O. Box , L, Livermore, CA Current phenomenological hydrodynamic reactive flow models, such as Ignition and Growth and Johnson-Author: C M Tarver. Introduction to the Technology of Explosives Paul W. Cooper and Stanley R. Kurowski Introduction to the Technology of Explosives is a clear and concise survey of the technologies and physical processes involved in explosive phenomena. The book is intended to provide the worker new to the field with sufficient background to understand problems that may arise and to interact intelligently with.
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Initiation of solid explosives by impact. Jerusalem, Israel Program for Scientific Translations; [available from the U.S. Dept. of Commerce, National Technical Information Service, Springfield, Va.] (OCoLC) Material Type: Government publication, National government publication: Document Type: Book: All Authors / Contributors.
Entrepreneur Making An Impact Podcast Patch Note Discussions #AndFriends w/ J'na Jefferson Steel Drum News Skinny Fat Asses ADVANCE THE HUNT.
Tactical Tracking Operations School Podcasts. Full text of "INITIATION OF SOLID EXPLOSIVES BY IMPACT" See other formats. Introduction. Detonation of explosives can be initiated by various mechanisms of delivering energy to it. These include among others, impact, friction, heat, spark, and intense from the fundamental importance of studying laser interaction with energetic materials, laser initiation has many advantages when compared to conventional by: Abstract.
In the study of the initiation of solid, polycrystalline explosives by short-duration (thin) shock waves, several investigators have found that the relationship between initial pressure (P) and shock duration (tau) can be described with the equation P/sup 2/ tau = const. Different mechanisms have been proposed to explain this relationship.
commercial explosives ranges from to g/cc. For free running explosives, the density is often specified as the pounds of explosives per foot of charge length in a given size borehole. With few exceptions, denser explosives give higher detonation velocities and pressures.
Density is an important consideration when choosing an explosive. A model of mechanical initiation of solid explosives, applicable for analysis of sensitivity of individual substances and composite explosives, is developed. The model includes a system of equations of work softening of a Initiation of solid explosives by impact book explosive charge under an impact, resulting dissipative heating, and heat release due to chemical reactions between the Cited by: 2.
The mechanism of shock initiation to detonation in heterogeneous explosives is best described as local decomposition at hot spots that are formed by shock interactions with density discontinuities.
The liberated energy strengthens the shock so that as it interacts with additional inhomogeneities, hotter more» hot spots are formed, and more of.
Revised and expanded to reflect new developments in the field, this book outlines the basic principles required to understand the chemical processes of explosives.
The Chemistry of Explosives provides an overview of the history of explosives, taking the reader to future developments. The text on the classification of explosive materials contains much data on the physical parameters of primary /5(4).
of initiation of detonation in solid explosiv es [1, 4]: the v alue of the increment of the specific internal energy of the explosiv e compressed by the shock w av e, the cri.
Los Alamos National Laboratory is an incredible place. It was conceived and born amidst the most desperate of circumstances. It attracted some of the most brilliant minds, the most innovative entrepreneurs, and the most c- ative tinkerers of that generation.
Out of that milieu emerged physics and. Abstract. The shock initiation of detonation in a solid explosive with gas inclusions is studied numerically by way of a two-fluid model. The fluid-dynamic equations of a reactive medium are solved in a two-dimensional Lagrangian frame of : H.
Qin, D. Spalding. Initiation of Solid Explosives by Mechanical Impact TABLE 1 Number Substance Overall formula ΔH0 f, kcal/mole ρ0 g/cm3 Qmax, cal/g 0 max, cal/cm3 pcr kbar 1 Triaminotrinitrobenzene C6H6N6O6 − 2 Diaminodinitroethylene C2H4N4O4 − 3 TNT C7H5N3O6 − 4 Tetryl C7H5N5O8 This world-famous work has been enlarged and updated without tampering with its tried and tested format.
Around alphabetically ordered, monographic entries consider the physicochemical properties, production methods and safe applications of over explosive chemicals, while discussing 70 fuels, additives and oxidizing agents and describing the relevant test methods/5(2). THEORY OF INITIATION OF DETONATION IN SOLID AND LIQUID EXPLOSIVES G.
ADAMS The experimentally observed differences in the growth of shock initiated detonation in liquid and in solid explosives are discussed with the object of deciding upon a reaction rate model for numerical calculations on the growth of reactive shock waves in granular solid by: 1.
Experimental results often show that a prompt shock response to projectile impact can be experienced by even relatively heavily cased explosives.
This paper will discuss the predictive criteria that can be applied in such circumstances, and in particular will explore the different mechanisms which are present for rod and sphere impacts. Chemical kinetic thermal decomposition models of pressed solid high explosives containing octahydro-1,3,5,7-tetranitro-1,3,5,7-tetrazocine (HMX) and triaminotrinitrobenzene (TATB), which accurately calculate the times to explosion at various initial temperatures measured in the one-dimensional time to explosion (ODTX) test, are extended to higher temperatures to predict the critical.
Chapter EXPLOSIVES DEFINITIONS 1. An explosive substance is a solid or liquid substance (or mixture of substances) which is in itself capable by chemical reaction of producing gas at such a temperature and pressure and at such a speed as to cause damage to the surroundings.
Pyrotechnic substances are included even when they do not evolve Size: KB. The study presented here was conducted to investigate if the common Dutch method of making training aids (impregnating stainless steel tubes or other objects with the odor of an explosive by storing them for a minimum of 24 hours in a glass jar with solid explosives but without direct contact with the explosives) could be used to train the dogs to reliably detect different kinds of solid TATP.
In this work, we have focused on the initiation sensitivity of a solid explosive and performed numerical analysis of sympathetic detonation. The numerical analysis is calculated by LS-DYNA 3D (commercial code).
To understand the initiation reaction of an explosive, Lee-Tarver equation was used and impact detonation process was analyzed by ALE by: 1. •The world’s largest supplier of commercial explosives • 28% market share – 50 countries • 4 mil. tons of bulk explosives, tonnes/d, blasts/d •Pioneers of new technology •Advanced blasting solutions tailored to specific customer needs and challenges •Regional offices.
Statistical Theory of Initiation of Explosives by Impact. Gan Ren *, Yingzhe Liu, Weipeng Lai and Tao Yu. Xi’an Modern Chemistry Research Institute, Xi’an,People’s Republic of China.
ABSTRACT. When a given weight dropped onto an explosive charge, explosion or notis. Abstract. A kind of mesoscopic reaction rate model is reexamined in this paper with the aim of getting rid of the temperature dependence of its experiential parameters and making it available to predict the shock initiation of solid explosives under different initial by: 4.Research on Initiation Sensitivity of Solid Explosive and Planer Initiation System 1.
INTRODUCTION Explosive is a material which generates high energy in a moment. And it is applied to many field of the society, such as material development, civil engineering, medical treatment and so by: 1.