Keywords: انفجار زیر آب; Pore water pressure; Underwater explosion; PSI; u-p approximation; ALE-Lagrangian algorithm;
مقالات ISI ترجمه شده انفجار زیر آب
مقالات ISI انفجار زیر آب (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
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در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: انفجار زیر آب; Grid-stiffened cylindrical shell; Dynamic buckling; Intermediate-velocity impact; Underwater explosion; Fluid-structure interaction;
Keywords: انفجار زیر آب; Underwater explosion; Eulerian finite element method; Shockwave; Bubble pulsation;
Keywords: انفجار زیر آب; Underwater explosion; Fully saturated soil; Pore water pressure; Attenuation formulas;
Keywords: انفجار زیر آب; Underwater explosion; Shock wave; Bubble motion; Eulerian finite element formulation; Continuous simulation;
Keywords: انفجار زیر آب; Bubble dynamics; Free surface; Eulerian finite element method; Volume of fluid (VOF) method; Underwater explosion;
Keywords: انفجار زیر آب; Underwater explosion; Cylindrical shell; SEM; Failure mode;
Keywords: انفجار زیر آب; Underwater explosion; Pipeline response; Fluid-structure interaction; Pipeline-seabed interaction;
Keywords: انفجار زیر آب; Underwater explosion; Bubble collapse pressure pulse; Pressure measurement;
Keywords: انفجار زیر آب; Fluid-structure interaction; Bubble dynamics; Two-layered composite; Underwater explosion;
Keywords: انفجار زیر آب; Bubble dynamics; Underwater explosion; Fluid-structure interaction; Global response; Waves;
Keywords: انفجار زیر آب; Composite materials; Composite damage; Blast loading; Underwater explosion; Computational modeling; Polyurea coatings;
Keywords: انفجار زیر آب; Underwater explosion; Shock wave; Bubble pulsation; Similarity criteria; Centrifugal model;
Keywords: انفجار زیر آب; SPH; Metal jet; Underwater explosion; Penetration;
Keywords: انفجار زیر آب; Shaped charge jet; Liner; Underwater explosion; Penetration;
Keywords: انفجار زیر آب; Underwater explosion; Internal fluid; Whipping; Doubly asymptotic approximation;
Keywords: انفجار زیر آب; Underwater explosion; Double-plated structure; Fluid-structure interaction; Numerical method;
Keywords: انفجار زیر آب; Smoothed particle hydrodynamics; ocean engineering; fluid-structure interaction; bubble dynamics; underwater explosion; hydrodynamics;
Keywords: انفجار زیر آب; 00-01; 99-00; Underwater explosion; Shock wave; Nonlinear compressibility; Reflection coefficient;
Keywords: انفجار زیر آب; Honeycomb; Sandwich panel; Underwater explosion; Secondary pressure wave
Keywords: انفجار زیر آب; Graded material; Underwater explosion; Fluid–structure interaction; Compressible multiphase flow
Keywords: انفجار زیر آب; Underwater explosion; Fluid–structure interaction; Static pressure; Submersible hull; Cellular cladding
Keywords: انفجار زیر آب; Underwater explosion; Shock wave; Bubble; Hydro-plastic equations; Damage; Simplified hull girder;
Keywords: انفجار زیر آب; Dynamic buckling; Pressure wave loading; Implosion; Fluid-structure interaction; Shock wave; Underwater explosion; Vibration frequency; Hydrostatic pressure; High-speed photography; 3-D digital image correlation
Keywords: انفجار زیر آب; Numerical simulation; Underwater explosion; Blast wave; Rarefaction wave; Free surface; Cavitation;
Keywords: انفجار زیر آب; Nanoenergetic materials; Al/CuO nanoparticles; Sea urchin-like carbon nanotubes; Optical igniters; Underwater explosion
Keywords: انفجار زیر آب; Composite materials; Composite damage; Underwater explosion; Plate curvature; Finite element modeling
Keywords: انفجار زیر آب; Underwater explosion; Two-phase gas–liquid flow; Cavitation; MUSCL-Hancock strategy
Keywords: انفجار زیر آب; Shock focusing; Underwater explosion; Fluid-structure interaction; Schlieren; Finite difference simulations;
Keywords: انفجار زیر آب; Underwater explosion; Shock focusing; Fluid-structure interaction; Schlieren; Finite element analysis;
Keywords: انفجار زیر آب; Dynamic response; Underwater explosion; Pressure hull; Shock wave; Bubble-pulse
Keywords: انفجار زیر آب; Boundary condition; Non-linear acoustic approximation; Underwater explosion; Oscillating bubble; Ghost fluid method;
Keywords: انفجار زیر آب; Underwater explosion; Shock wave; Near field; Hull girder; Hog damage
Keywords: انفجار زیر آب; Fluid–structure interaction; Cavitation; Elastic longitudinal wave; Underwater explosion
Keywords: انفجار زیر آب; Fluid-structure interaction; Underwater explosion; Shock; Bubble dynamics; Composite material; Dynamic response;
Keywords: انفجار زیر آب; Underwater explosion; Air explosion; Free surface; Structure surface; Explosion shock loading; Shock wave propagation
Keywords: انفجار زیر آب; Concrete gravity dam; Failure mode; Mesh size effect; Antiknock performance; Underwater explosion
Keywords: انفجار زیر آب; Underwater explosion; Bubble jetting; Doubly asymptotic approximation; Fluid–structure interaction; Surface ship
Keywords: انفجار زیر آب; Concrete gravity dam; Underwater explosion; Damage prediction; Shock wave propagation; Coupled model
Keywords: انفجار زیر آب; Mesh size effects; Underwater explosion; Shock wave propagation; Near field
Keywords: انفجار زیر آب; Breakage; Liberation; Underwater explosion; Waste; Recycling
A new shock factor of SWATH catamaran subjected to underwater explosion
Keywords: انفجار زیر آب; SWATH catamaran; Underwater explosion; New shock factor; Impact environment;
Coupling Runge-Kutta discontinuous Galerkin method to finite element method for compressible multi-phase flow interacting with a deformable sandwich structure
Keywords: انفجار زیر آب; Compressible multiphase flow; Sandwich structure; Fluid-structure interaction; Underwater explosion;
Source of the tsunami generated by the 1650 AD eruption of Kolumbo submarine volcano (Aegean Sea, Greece)
Keywords: انفجار زیر آب; Tsunami; Submarine volcanism; Underwater explosion; Caldera collapse; Pyroclastic flow; Kolumbo volcano; Santorini; Aegean Sea
Investigation and numerical analysis of impulsive hydroforming of aluminum 6061-T6 tube
Keywords: انفجار زیر آب; Impulsive hydroforming of tube; Underwater explosion; Finite element analysis; Shock and pulsed waves; Johnson–Cook structural and damage model
A GPU based compressible multiphase hydrocode for modelling violent hydrodynamic impact problems
Keywords: انفجار زیر آب; Marine engineering; Cavitation; Slamming; Underwater explosion; Parallel computing;
Approximation of underwater explosion bubble by singularities based on BEM
Keywords: انفجار زیر آب; Underwater explosion; Bubble; Pulsation loading; Boundary element method
Numerical simulation of column charge underwater explosion based on SPH and BEM combination
Keywords: انفجار زیر آب; Underwater explosion; Shock wave; Bubble jet; SPH; BEM
A novel heavy-weight shock test machine for simulating underwater explosive shock environment: Mathematical modeling and mechanism analysis
Keywords: انفجار زیر آب; Shock test machine; Velocity generator; Rapid opening high flow valve; Shock test; Underwater explosion
A numerical study of the pullout behavior of grout anchors underreamed by pulse discharge technology
Keywords: انفجار زیر آب; Ground anchor; Underreaming; Uplift capacity; Pulse discharge technology; Underwater explosion