Impact Modeling of Underwater Explosion

Andrzej Grządziela; Bogdan Szturomski

doi:10.4028/www.scientific.net/SSP.196.51

Paper Titles

Concept of Measurements and Acquisition System for Identification Process of a Synchronous Ship Generator
p.13

Damage and Corrosion Diagnostics of Welded Light Alloys Ship Constructions
p.20

Elements of Dynamics Analysis of the Warship Launcher of Anti-Aircraft Short Range Homing Missiles
p.28

Hyperbaric Swimming Simulator
p.43

Impact Modeling of Underwater Explosion
p.51

Mechatronics Systems Supported by Vision Techniques
p.62

Supporting the Empiric Research of Diesel Engines with Multi-Equation Models
p.74

The Analysis of Possibility of Using Electromagnetic Drive for Autonomous Biomimetic Underwater Vehicle
p.82

The Fluctuational Model of Small Floating Objects Identification by Means of Passive Radar Reflectors
p.88

HomeSolid State PhenomenaSolid State Phenomena Vol. 196Impact Modeling of Underwater Explosion

Impact Modeling of Underwater Explosion

Abstract:

Ship shock tests have been conducted for shock qualification of hull integrity and proper operation systems and subsystems. The ship shock trial identifies design and construction and it also validates shock hardening criteria. The main problem is that ship shock trials are costly. Numerical modeling and simulation, using FEM, may provide information to look into the details of fluid model, dynamic characteristics of ship hull and its internal component. The ship shock modeling and simulation has been performed and the predicted results were compared with ship shock test data made into sea trials. The preliminary studies of shock analysis approach are presented and the important parameters are discussed

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Periodical:

Solid State Phenomena (Volume 196)

Pages:

51-61

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.196.51

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Online since:

February 2013

Authors:

Andrzej Grządziela, Bogdan Szturomski

Keywords:

Modeling, Ships Hull, Shock Wave, Underwater Detonation

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