Name: Predictive Modeling of Dynamic Processes
ISBN: 978-1-4419-0727-1

Editors:

Stefan Hiermaier⁰

Stefan Hiermaier
1. Freiburg, Germany
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Provides an overview of a variety of crash and impact simulations
Discusses a wide spectrum of impact problems from low velocity impact to hyper-velocity impact
Successfully blends crash simulations with hydrocode technology
Includes supplementary material: sn.pub/extras

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Table of contents (23 chapters)

Front Matter

Pages i-xxiv

PDF
Simulation of Automotive Crash Processes
1. Front Matter
  
  Pages 1-1
  
  PDF
Part I Simulation of Automotive Crash Processes
1. Simulation of Recoverable Foams under Impact Loading
  
  Stefan Kolling, Andre Werner, Tobias Erhart, Paul A. Du Boisg
  
  Pages 9-25
2. The Numerical Simulation of Foam – An Example of Inter-Industrial Synergy
  
  Paul A. Du Bois
  
  Pages 27-42
3. Influence of Hardening Relations on Forming Limit Curves Predicted by the Theory of Marciniak, Kuczyński, and Pokora
  
  Heinrich Werner
  
  Pages 43-65
4. The Challenge to Predict Material Failure in Crashworthiness Applications: Simulation of Producibility to Serviceability
  
  André Haufe, Markus Feucht, Frieder Neukamm
  
  Pages 67-88
5. Cohesive Zone Modeling for Adhesives
  
  Matthias Nossek, Stephan Marzi
  
  Pages 89-105
6. Modeling the Plasticity of Various Material Classes with a Single Quadratic Yield Function
  
  Markus Wicklein
  
  Pages 107-120
7. On the Computation of a Generalised Dynamic J-Integral and its Application to the Durability of Steel Structures
  
  Ingbert Mangerig, Stefan Kolling
  
  Pages 121-132
Numerical Modeling of Blast and Impact Phenomena
1. Front Matter
  
  Pages 1-1
  
  PDF
Part II Numerical Modeling of Blast and Impact Phenomena
1. The MAX-Analysis: New Computational and Post-Processing Procedures for Vehicle Safety Analysis
  
  David Vinckier
  
  Pages 135-142
2. 10 Years RHT: A Review of Concrete Modelling and Hydrocode Applications
  
  Werner Riedel
  
  Pages 143-165
3. Numerical Simulations of the Penetration of Glass Using Two Pressure-Dependent Constitutive Models
  
  Sidney Chocron, Charles E. Anderson Jr
  
  Pages 167-187
4. On the main mechanisms in ballistic perforation of steel plates at sub-ordnance impact velocities
  
  Tore Børvik, Sumita Dey, Odd Sture Hopperstad, Magnus Langseth
  
  Pages 189-219
5. Dimensioning of concrete walls against small calibre impact including models for deformable penetrators and the scattering of experimental results
  
  Norbert Gebbeken, Tobias Linse, Thomas Hartmann, Martien Teich, Achim Pietzsch
  
  Pages 221-237
6. Numerical Analysis of Fluiddynamic Instabilities and Pressure Fluctuations in the Near Field of a Detonation
  
  Arno Klomfass
  
  Pages 239-259
7. Numerical Simulation of Muzzle Exit and Separation Process for Sabot–Guided Projectiles at M > 1
  
  Jörn Keuk, Arno Klomfass
  
  Pages 261-269
8. Numerical Analysis of the Supercavitating Flow about blunt Bodies
  
  Arno Klomfass, Manfred Salk
  
  Pages 271-279
9. Numerical Analysis Method for the RC Structures Subjected to Aircraft Impact and HE Detonation
  
  Masahide Katayama, Masaharu Itoh
  
  Pages 281-313
10. Groundshock Displacements–Experiment and Simulation
  
  Eliahu Racah
  
  Pages 315-330

About this book

Predictive Modeling of Dynamic Processes provides an overview of hydrocode technology, applicable to a variety of industries and areas of engineering design. Covering automotive crash, blast impact, and hypervelocity impact phenomena, this volume offers readers an in-depth explanation of the fundamental code components. Chapters include informative introductions to each topic, and explain the specific requirements pertaining to each predictive hydrocode.

Successfully blending crash simulation, hydrocode technology and impact engineering, this volume fills a gap in the current competing literature available.

Keywords

Editors and Affiliations

Freiburg, Germany

Stefan Hiermaier

Bibliographic Information

Book Title: Predictive Modeling of Dynamic Processes
Book Subtitle: A Tribute to Professor Klaus Thoma
Editors: Stefan Hiermaier
DOI: https://doi.org/10.1007/978-1-4419-0727-1
Publisher: Springer New York, NY
eBook Packages: Engineering, Engineering (R0)
Hardcover ISBN: 978-1-4419-0726-4Published: 10 September 2009
Softcover ISBN: 978-1-4899-7926-1Published: 23 August 2016
eBook ISBN: 978-1-4419-0727-1Published: 09 July 2009
Edition Number: 1
Number of Pages: XX, 460
Topics: Solid Mechanics, Classical Mechanics, Simulation and Modeling, Characterization and Evaluation of Materials, Automotive Engineering, Aerospace Technology and Astronautics

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Table of contents (23 chapters)

Front Matter

Simulation of Automotive Crash Processes

Front Matter

Part I Simulation of Automotive Crash Processes

Numerical Modeling of Blast and Impact Phenomena

Front Matter

Part II Numerical Modeling of Blast and Impact Phenomena

About this book

Keywords

Editors and Affiliations

Freiburg, Germany

Bibliographic Information

Publish with us

Buy it now

Buying options

Other ways to access

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