Keywords: انتشار موج; 42.65.Jx; 42.65.Tg; Ball lightning; Artificial ball lightning; Optical model ball lightning; Optically induced force; Wave propagation;
مقالات ISI انتشار موج (ترجمه نشده)
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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: انتشار موج; Mathematical model in optics; Chirp; Wave propagation;
Keywords: انتشار موج; Layered composite; Compressibility; Instability; Band gap; Postbuckling; Wave propagation;
Keywords: انتشار موج; Wave propagation; Repetitive structures; Transfer matrices; Symplectic orthogonality; Group velocity;
Keywords: انتشار موج; Structural Health Monitoring; Damage detection; Wave propagation; Sparsity;
Keywords: انتشار موج; Wood; Ultrasonic; Wave propagation; Orthotropy; Ray-tracing;
Keywords: انتشار موج; Generalized finite element method; Phantom node method; Porous media; Dynamic response; Wave propagation;
Keywords: انتشار موج; Structural health monitoring; Wave propagation; Acoustic emission sensor; Smart structures; Acoustic emission waveform;
Keywords: انتشار موج; 42.65.Jx; 42.65.Tg; Ball lightning; Optical electrostriction pressure; Optically induced force; Wave propagation;
Keywords: انتشار موج; 42.65.Jx; 42.65.Tg; Ball lightning; Optical electrostriction pressure; Optically induced force; Wave propagation;
Keywords: انتشار موج; Wave propagation; Phase transition; Airy beam; Matrix optics;
Keywords: انتشار موج; Far field error; Off-center error; Wave propagation; Relative error volume;
Keywords: انتشار موج; Diffraction; Wave propagation; Fourier optics;
Keywords: انتشار موج; Singular optics; Polarization; Wave propagation;
Keywords: انتشار موج; Wave propagation; Wave dispersion; Heterogeneous solids; Finite element method; Finite volume method;
Keywords: انتشار موج; 42.65.Jx; 42.65.Tg; Ball lightning; Optical electrostriction pressure; Optically induced force; Wave propagation;
Keywords: انتشار موج; Acoustic-gravity waves; Solar activity; Thermosphere; Wave propagation; Numerical simulation; Wave-induced jets;
Keywords: انتشار موج; Cellular sandwich beam; Free vibration; Mode damping loss factor; Wave propagation; Dispersion analysis;
Keywords: انتشار موج; Implant stability; Multiscale analysis; Numerical simulations; Sensitivity study; Wave propagation;
Keywords: انتشار موج; Vibration isolation; Passive isolation; Vibration criteria; 1/3rd octave band frequency; Vibration isolation trench; Wave propagation;
Keywords: انتشار موج; Structural health monitoring; Smart aggregate; Porosity; Wave propagation; 3D numerical simulation;
Keywords: انتشار موج; Long waves; Analytic solution; Wave motion; Seamount with a pit; Wave propagation;
Keywords: انتشار موج; Gradient-refractive-index; Metamaterial; Wave propagation; 3D printing;
Keywords: انتشار موج; Close-in rock blasting; Urban structures; High frequency excitation; Spectral analysis; Peak particle velocity; Wave propagation; Wave transmission response; Deamplification;
Keywords: انتشار موج; Composite structures; Band gap behaviour; Additive manufacturing; Hybrid structures; Wave propagation;
Keywords: انتشار موج; Nanomaterials; Nonlocal strain gradient theory; Initial stress; Wave propagation; Graphene; Second-order shear deformation plate theory;
Keywords: انتشار موج; Wave propagation; Cavitation; Vapor-gas bubbles; Wave speed; Cavitation modelling;
Keywords: انتشار موج; Band gaps; Wave propagation; Couple stress; Surface elasticity; Rotational inertia; Bloch theorem; Transfer matrix method; Bernoulli-Euler beam; Size effect;
Keywords: انتشار موج; Wave propagation; Dynamic analysis; Heterogeneous materials; Multiscale modeling; Finite element method;
Keywords: انتشار موج; Fiber composites; Instabilities; Finite deformations; Wave propagation; Dispersion;
Keywords: انتشار موج; Chalk; Finite-difference modeling; Velocity analysis; Wave propagation; Seismic imaging; Multiples; Converted waves; Thin-layer;
Keywords: انتشار موج; Wave propagation; Network materials; Nonlinear kinematics; Nonlinear dispersion; Perturbation approach; Metamaterials; Unit-cell;
Keywords: انتشار موج; Wave propagation; Wave finite element method; Riccati transfer matrix method; Piezoelectric coupling; Electrical network;
Keywords: انتشار موج; Cosserat continuum; Layered material; Wave propagation; Rotational waves; Dispersion;
Keywords: انتشار موج; Smoothed particle hydrodynamics (SPH); Wave propagation; Non-dominated sorting genetic algorithm (NSGA-II); Response surface method (RSM); Parameter identification.;
Keywords: انتشار موج; Nonlinear analysis; Metamaterials; Anisotropy; Wave propagation; Shear strains; Normal strains;
Keywords: انتشار موج; Linear and nonlinear structural dynamics; Explicit time integration method; Hermite approximations in time; Wave propagation; Time finite element method; Collocation method;
Keywords: انتشار موج; Wave propagation; Modelling; Transmission; Reflection; Spectrum;
Keywords: انتشار موج; Wave barrier; Vibration control; Wave propagation; Genetic algorithm;
Keywords: انتشار موج; Wave propagation; Porous nanotubes; Nonlocal strain gradient theory; Phase velocity; Thermal effects;
Keywords: انتشار موج; Water leak detection; Wave propagation; Pipe vibro-acoustics;
Keywords: انتشار موج; Deconvolution; Wave propagation; Site response; Amplitude and phase variability; Finite element method; Time- and frequency-domain analyses; Rayleigh damping;
Keywords: انتشار موج; Wave propagation; Magneto-electro-elastic nanoshell; Nonlocal strain gradient theory; Cut-off wave number;
Keywords: انتشار موج; Dam-break wave; FLOW-3D; Wave propagation; Surface profile; Bottom resistance; Turbulent kinetic energy;
Keywords: انتشار موج; Wave propagation; Waves in pipes; Fluid-filled pipes; Waves in embedded pipes; Semi-analytical finite element; Perfectly matched layer; Spectral elements;
Keywords: انتشار موج; Wave propagation; Second gradient; Coupling energy; 3D Network materials; Dispersive behavior;
Keywords: انتشار موج; Deconvolution; Concrete gravity dam; Wave propagation; Finite element method; Foundation modeling, Rayleigh damping;
Keywords: انتشار موج; Thin-walled tubes; Material point method; Quasi-static loading; Impact loading; Wave propagation;
Keywords: انتشار موج; Non-central; Low-velocity; Wave propagation; Resumed contact; Swing;
Keywords: انتشار موج; Wave-structure interaction; Wave propagation; Smoothed particle hydrodynamics; Coupling; Message passing interface;