起爆理論與技術

內容概要

　　《起爆理論與技術（英文版）（Initiation Theory and Technology）》是關于含能材料起爆技術的英文版讀物，主要介紹炸藥、火藥、煙火藥的起爆理論與技術，包括將各種不同刺激能量形式如機械能、電能、光能、沖擊波能、熱能等轉換成點火或起爆的換能技術，以及各種換能系統(tǒng)的組成、結構、作用原理和設計考慮的起爆應用技術。本書可作為相關專業(yè)的本科生和研究生的專業(yè)英語教材及雙語教學教材。

書籍目錄

Chapter 1  Initiation by Heat1.1  Concept and Classification1.2  Thermal Ignition Theory1.2.1  Ignition Theory in Solid1.2.2  Ignition Theory in Gas1.2.3  Ignition Theory in Heterogeneous Phase1.3  Application of Initiation by Heat1.3.1  Flame or Spark Initiato1.3.2  Output of Prime1.3.3  Hot Bridgewire InitiatoExercisesChapter 2  Initiation by Mechanical Stimuli2.1  Concept and Classification2.2  Initiation Mechanism2.2.1  Initiation by Impact or by Percussion2.2.2  Initiation by Friction2.2.3  Initiation by Stab2.3  Application of Mechanical Initiation2.3.1  Percussion Initiato2.3.2  Stab Primer or Stab Detonator2.3.3  Energy-Power RelatiohipExercisesChapter 3  Electric Initiation or Initiation by Electric Power3.1  Concept and Classification3.2  Initiation Mechanism3.2.1  Electrothermal Initiation3.2.2  Electric Spark Initiation3.2.3  Conductive Mixture Electric Initiation3.2.4  Electrical But Initiation3.3  Application of Electrical Initiation3.3.1  Hot Bridgewire Electric Initiato3.3.2  Electric Spark Gap Detonator3.3.3  Conductive Mixture Electric Detonator3.3.4  Other Electric InitiatoExercisesChapter 4  Laser Initiation Theory4.1  Concept and Classification4.1.1  Concept of Laser Initiation4.1.2  Background for Laser Initiation4.1.3  Advantages of Laser Initiation Systems4.2  Laser Ignition Energy Traform Mechanism of Energetic Materials4.2.1  Laser Ignition of Explosive4.2.2  Laser Ignition of Pyrotechnics4.2.3  Pyrotechnic Laser Ignition System Design4.2.4  Mechanisms for Laser Ignition of Pyrotechnics4.3  Application Technology4.3.1  Literature Review4.3.2  Laser Diode Ignition4.3.3  Laser Detonator4.3.4  Laser Ignited ActuatorExercisesChapter 5  Flayer Initiation Theory5.1  Concept and Classification5.2  Acceleration Theory of Fragments5.2.1  Gurney Flayer Acceleration Model5.2.2  Effective Charge in Gumey Model5.2.3  Flyer Impulse Estimation5.2.4  Gurney Data for Explosives5.2.5  Accelerated Flyer Electric Gumey by Electric But5.2.6  Flyer Initiation CriterionExercisesChapter 6  Initiation Theory by Shock6.1  Concept and Classification  r6.1.1  Shock6.1.2  Deflagration6.1.3  Detonation6.2 - Initiation Theory6.2.1  Shock Theory6.2.2  Detonation Waves6.2.3  Traition from Deflagration to Detonation6.2.4  Actual DetonationExercisesChapter 7  Exploding Bridgewire and Exploding Foil Initiation Theory7.1  Concept and Classification7.1.1  Exploding Bridgewire （EBW） Detonator7.1.2  Exploding Foil Initiato （EFI）7.2  Electric But Characteristics of EBWs7.2.1  Explosion of the Bridgewire7.2.2  Detonation of Initial Pressing7.2.3  Effects of Cables7.2.4  Function Time of EBWs7.3  Electric But Characteristics of EFIs7.3.1  Electric But Characteristics of EFIs7.3.2  Flyer Acceleration Characteristics in Electric But Process7.4  Application Technology7.4.1  Typical Chip Slapper Detonator Design7.4.2  New Slapper Design7.4.3  Typical EFI Igniter Design7.4.4  A Typical EFI Ignition SystemExercisesChapter 8  Semiconductor Bridge Initiation Theory8.1  Concept and Classification8.1.1  Concept8.1.2  Classification8.1.3  Brief Description of SCB Technique Development8.1.4  SCB Production Process8.2  General Initiation Mechanism8.2.1  SCB Ignition Features in Comparison with HBW8.2.2  Characteristics of Electric But Process8.2.3  Characteristics of Electrothermal Performance8.2.4  Interface Design of the SCB with Energetic Material8.3  SCB Ignition Features of Different Energetic Material8.4  Characteristics of SCB Plasma8.4.1  Experimental Arrangement8.4.2  SCB Phase Traition Observed8.4.3  Temporal Evolution of SCB Plasma Appearance and Emission Inteity8.4.4  SCB Plasma Fluid Characteristics8.4.5  SCB Plasma Temperature Characteristics8.5  Comparison of Plasma Generation Behavio Between Single-SCBand Poly-SCB8.5.1  Experimentation8.5.2  Comparison of Electrical But Characteristics Between Two-typeSCB Devices8.5.3  Finite Element Analysis for Heating of Two-type SCB Devices8.5.4  Theoretical Modeling for Thermal Structures of Two-type SCB Devices8.6  Reactive SCB--A New Technique8.6.1  Challenge Agait the Conventional SCB8.6.2  Reactive SCB Technology8.7  Next Generation SCB InitiatoExercisesReferences

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