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Engineering Models in High-Speed Penetration Mechanics and Their Applications (eBook)

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  • 211,832 Words
  • 1,116 Pages

This two-volume, 1100 pages, 38 chapters book is a significantly expanded, revised and updated version of the monograph by the authors published in 2013 (Ben-Dor, G, Dubinsky, A, Elperin, T, 'High Speed Penetration Dynamics: Engineering Models and Methods,' Singapore: World Scientific Publishing Company). The contents increased by 60%, the number of titles in bibliography doubled and reached 1600; and the scope covers a range of new topics related to hypervelocity penetration, along with high-speed impact.

Presented material is structured into two parts. The first part includes description and analysis of practically all known engineering models for calculating high-speed penetration of projectiles into concrete, metals, geological shields, adobe, and gelatine.

The second part focuses on the use of approximate models for solving conventional and non-standard problems of penetration mechanics including prediction and optimization of protective properties of monolithic and multi-layered shields against high-speed projectiles and space debris; shape optimization of high-speed projectiles penetrating into various media; modelling of penetration and optimal control of penetrators equipped with jet thrusters; and investigation of the efficiency and optimization of segmented projectiles. The book includes comprehensive overviews on basic classes of problems in high-speed penetration mechanics.

This is a indispensable reference guide for scientists, engineers, and students specializing in the field of high-speed and hypervelocity penetration mechanics.

Contents:
  • Preface
  • Volume 1: Engineering Models:
    • Some Conventional Approaches to Penetration Modeling:
      • Localized Interaction Models (LIMs)
      • Cavity Expansion Approximations
    • Penetration into Concrete Shields:
      • Empirical Models
      • Analytical Models
      • Comparison between Models and Their Experimental Validation
    • Penetration into Metal Shields:
      • Empirical Models
      • Analytical Models
    • Penetration into Geological Shields:
      • Empirical Models
      • Analytical Models
    • Penetration into Some Other Media:
      • Models for Penetration into Adobe Shields
      • Penetration into Gelatin Engineering Models and Experiments
    • Some Models for Hypervelocity Penetration:
      • Hypervelocity Penetration of Balls into Metal Shields
      • Ricochet of Rods and Balls
    • Some Special Inverse Problems:
      • Theoretical Basis of the Method
      • Application to Penetration Mechanics
  • Volume 2: Applied Problems:
    • Method of Basic Impactors for Prediction of Penetration and Perforation:
      • Simplified Version of the Method
      • Full Version of the Method
    • Shape Optimization of Projectiles:
      • Survey
      • Penetration with Non-Constant Friction
      • Semi-Infinite Concrete Shields
      • Metal Shields Having a Finite Thickness
      • Fiber-Reinforced Plastic Laminates
    • Hypervelocity Impact by Segmented Projectiles:
      • Historical Review
      • Effectiveness of Segmented Projectiles: Some Theoretical Results
    • Segmented Impactors at High Speed Impact:
      • High Speed Impact. Simplified Discrete Model
      • High Speed Impact. Generalized Discrete and Continuous Models
    • Modeling and Optimal Control of Impactors with Jet Thruster:
      • Application of Two-Term Model of Penetration
      • Application of the Modified Young Model
    • Effect of Order of Plates, Layering and Spacing on Protective Properties of Shields:
      • Survey
      • Effect of Spacing for Non-Conical Projectiles: Numerical Simulations
      • Effect of Order of Plates for Non-Conical Projectiles. Numerical Simulations
      • Effect of Layering. Theoretical Analysis
      • Optimization of Multi-Layer Shields
    • Some Optimization Problems for Inhomogeneous Non-Ductile Shields:
      • Optimization of Reinforced Concrete Panels with Steel Liner
      • Optimization of Two-Component Armor against Single and Repeated Impacts
      • Optimization of Two-Component Armor Having Several Ceramic Layers
    • Some Optimization Problems for Hypervelocity Impact:
      • Optimal Velocity Penetrators
      • Optimization of Dual- and Multi-Wall Shields
  • Appendices:
    • Some Properties of Convex/Concave Increasing Positive Functions
    • Some Experimental Studies on Penetration into Concrete or Reinforced Concrete
    • Some Experimental Studies on Penetration into Metals
    • Some Experimental Studies on Penetration into Geological Shields
  • Bibliography
  • Author Index

Readership: This is a reliable and indispensable reference guide for scientists, engineers, and students specializing in the field of high-speed and hypervelocity penetration mechanics. It will also be useful to experts including theoreticians, design engineers, and experimentalists. Perforation;Projectile;Penetrator; Ballistic Limit;Depth of Penetration;Protective Structure;Space Debris;Shape Optimization;Shield Optimization;Segmented Rod;FRP Laminate;Jet Thruster;Steel Liner;Combined Armor00

This two-volume, 1100 pages, 38 chapters book is a significantly expanded, revised and updated version of the monograph by the authors published in 2013 (Ben-Dor, G, Dubinsky, A, Elperin, T, 'High Speed Penetration Dynamics: Engineering Models and Methods,' Singapore: World Scientific Publishing Company). The contents increased by 60%, the number of titles in bibliography doubled and reached 1600; and the scope covers a range of new topics related to hypervelocity penetration, along with high-speed impact.

Presented material is structured into two parts. The first part includes description and analysis of practically all known engineering models for calculating high-speed penetration of projectiles into concrete, metals, geological shields, adobe, and gelatine.

The second part focuses on the use of approximate models for solving conventional and non-standard problems of penetration mechanics including prediction and optimization of protective properties of monolithic and multi-layered shields against high-speed projectiles and space debris; shape optimization of high-speed projectiles penetrating into various media; modelling of penetration and optimal control of penetrators equipped with jet thrusters; and investigation of the efficiency and optimization of segmented projectiles. The book includes comprehensive overviews on basic classes of problems in high-speed penetration mechanics.

This is a indispensable reference guide for scientists, engineers, and students specializing in the field of high-speed and hypervelocity penetration mechanics.

Contents:
  • Preface
  • Volume 1: Engineering Models:
    • Some Conventional Approaches to Penetration Modeling:
      • Localized Interaction Models (LIMs)
      • Cavity Expansion Approximations
    • Penetration into Concrete Shields:
      • Empirical Models
      • Analytical Models
      • Comparison between Models and Their Experimental Validation
    • Penetration into Metal Shields:
      • Empirical Models
      • Analytical Models
    • Penetration into Geological Shields:
      • Empirical Models
      • Analytical Models
    • Penetration into Some Other Media:
      • Models for Penetration into Adobe Shields
      • Penetration into Gelatin Engineering Models and Experiments
    • Some Models for Hypervelocity Penetration:
      • Hypervelocity Penetration of Balls into Metal Shields
      • Ricochet of Rods and Balls
    • Some Special Inverse Problems:
      • Theoretical Basis of the Method
      • Application to Penetration Mechanics
  • Volume 2: Applied Problems:
    • Method of Basic Impactors for Prediction of Penetration and Perforation:
      • Simplified Version of the Method
      • Full Version of the Method
    • Shape Optimization of Projectiles:
      • Survey
      • Penetration with Non-Constant Friction
      • Semi-Infinite Concrete Shields
      • Metal Shields Having a Finite Thickness
      • Fiber-Reinforced Plastic Laminates
    • Hypervelocity Impact by Segmented Projectiles:
      • Historical Review
      • Effectiveness of Segmented Projectiles: Some Theoretical Results
    • Segmented Impactors at High Speed Impact:
      • High Speed Impact. Simplified Discrete Model
      • High Speed Impact. Generalized Discrete and Continuous Models
    • Modeling and Optimal Control of Impactors with Jet Thruster:
      • Application of Two-Term Model of Penetration
      • Application of the Modified Young Model
    • Effect of Order of Plates, Layering and Spacing on Protective Properties of Shields:
      • Survey
      • Effect of Spacing for Non-Conical Projectiles: Numerical Simulations
      • Effect of Order of Plates for Non-Conical Projectiles. Numerical Simulations
      • Effect of Layering. Theoretical Analysis
      • Optimization of Multi-Layer Shields
    • Some Optimization Problems for Inhomogeneous Non-Ductile Shields:
      • Optimization of Reinforced Concrete Panels with Steel Liner
      • Optimization of Two-Component Armor against Single and Repeated Impacts
      • Optimization of Two-Component Armor Having Several Ceramic Layers
    • Some Optimization Problems for Hypervelocity Impact:
      • Optimal Velocity Penetrators
      • Optimization of Dual- and Multi-Wall Shields
  • Appendices:
    • Some Properties of Convex/Concave Increasing Positive Functions
    • Some Experimental Studies on Penetration into Concrete or Reinforced Concrete
    • Some Experimental Studies on Penetration into Metals
    • Some Experimental Studies on Penetration into Geological Shields
  • Bibliography
  • Author Index

Readership: This is a reliable and indispensable reference guide for scientists, engineers, and students specializing in the field of high-speed and hypervelocity penetration mechanics. It will also be useful to experts including theoreticians, design engineers, and experimentalists. Perforation;Projectile;Penetrator; Ballistic Limit;Depth of Penetration;Protective Structure;Space Debris;Shape Optimization;Shield Optimization;Segmented Rod;FRP Laminate;Jet Thruster;Steel Liner;Combined Armor00


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by Gabi Ben-Dor, Anatoly Dubinsky, Tov Elperin

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