Keywords: تیغه توربین بادی; Wind turbine blades; Composite material; Recycling; Circular economy; Responsibility; Partnership;
مقالات ISI تیغه توربین بادی (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
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.
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: تیغه توربین بادی; Wind turbine blades; Cold condition; Ultrasonic de-icing; Composite; Prediction;
Keywords: تیغه توربین بادی; Wind turbine blades; Blade element momentum theory; Finite element modelling; Aerodynamic loads; Wind turbine performance; Fatigue damage;
Keywords: تیغه توربین بادی; nonlinear vibration; wind turbine blades; chaos; Lyapunov Exponent; Periodicity-Ratio; HAWT wind turbine; wind power;
Keywords: تیغه توربین بادی; Wind turbine blades; Structural health monitoring; Capacitive-based sensor; Soft elastomeric capacitor; Flexible membrane sensor; Sensor network; Signal decomposition; Damage detection; Damage localization; Data fusion;
Keywords: تیغه توربین بادی; Deflection monitoring; Vibration monitoring; Strain monitoring; Wind energy; Wind turbine blades;
Keywords: تیغه توربین بادی; Delamination; Debonding; Laminate composites; Nondestructive evaluation; Noncontact inspection; Air-coupled technique; Wind turbine blades;
Keywords: تیغه توربین بادی; Composite materials; Structural optimisation; Finite element method; Wind turbine blades; Design;
Keywords: تیغه توربین بادی; Wind turbine blades; Multi-scale model; Computational micromechanics; Damage mechanics; Finite element analysis; Fatigue progressive failure
Keywords: تیغه توربین بادی; B-spline; Coherent Laser Radar (CLR); Data alignment; Degrees of Freedom (DoF); Transformation; Wind turbine blades;
Keywords: تیغه توربین بادی; Wind turbine blades; Finite element method; Composite materials; Low wind speed; Design
Keywords: تیغه توربین بادی; Wind turbine blades; Dynamic instability; Coupled-mode flutter; Stochastic parameters;
Keywords: تیغه توربین بادی; Wind turbine blades; Experiments; Supercritical; Subcritical; Dynamic flow-induced instability.;
Keywords: تیغه توربین بادی; Wind turbine blades; De-icing; Ultrasonic guided waves; Low frequency vibration; Fatigue;
Keywords: تیغه توربین بادی; Fracture mechanics; Adhesive joints; Wind turbine blades; Finite element analysis; Cohesive zone model
Keywords: تیغه توربین بادی; Damage detection; Wind turbine blades; Finite element model; Aerodynamic loads; Dynamics analysis; Mode shape difference curvature
Keywords: تیغه توربین بادی; Wind turbine blades; Spar design; Biplane inboard region; Minimum total potential energy; Beam and cross-sectional analysis; Structural efficiency;
Keywords: تیغه توربین بادی; Wind turbine blades; Testing; Inspecting; Monitoring; Service safety;
Modelling and empirical development of an anti/de-icing approach for wind turbine blades through superposition of different types of vibration
Keywords: تیغه توربین بادی; Wind turbine blades; Anti-icing; De-icing; Vibration; Ultrasonic guided waves
Progressive debonding analysis of composite blade root joint of wind turbines under fatigue loading
Keywords: تیغه توربین بادی; Wind turbine blades; Fatigue; Debonding; Cohesive zone modeling; Finite element;
Modeling matrix cracking in composite rotor blades within VABS framework
Keywords: تیغه توربین بادی; Wind turbine blades; Matrix cracking; Damage variable; SHM; VABS; GEBT
Damages of wind turbine blade trailing edge: Forms, location, and root causes
Keywords: تیغه توربین بادی; Wind turbine blades; Trailing edge; Damages; Cracks; Fiberglass reinforced polymer (FGRP)
Investigating fracture behavior of polymer and polymeric composite materials using spiral notch torsion test
Keywords: تیغه توربین بادی; Spiral notch torsion test; Wind turbine blades; Polymeric composites; Fracture; Mixed mode
Effect of block-copolymer dispersants on properties of carbon nanotube/epoxy systems
Keywords: تیغه توربین بادی; A. Carbon nanotubes; A. Nano composites; A. Polymer–matrix composites (PMCs); B. Mechanical properties; Wind turbine blades
Aeroelastic analysis of wind turbine blades based on modified strip theory
Keywords: تیغه توربین بادی; Aeroelasticity; Wind turbine blades; Modified strip theory
Stochastic analysis of the influence of tower shadow on fatigue life of wind turbine blade
Keywords: تیغه توربین بادی; Wind turbine blades; Stochastic fatigue damage; Tower shadow; Tower design; Monte Carlo simulation
A review and design study of blade testing systems for utility-scale wind turbines
Keywords: تیغه توربین بادی; Wind energy; Wind turbine blades; Experimental wind turbine blade testing;
Multi-material topology optimization of laminated composite beam cross sections
Keywords: تیغه توربین بادی; Beams; Cross section analysis; Laminated composites; Multi-material topology optimization; Wind turbine blades
Defect distribution and reliability assessment of wind turbine blades
Keywords: تیغه توربین بادی; Reliability; Wind turbine blades; Defects; Delamination; Probabilistic methods; System effects
Evaluation of shear flow in composite wind turbine blades
Keywords: تیغه توربین بادی; Thin-walled section; Shear flow; Wind turbine blades; Finite element analysis
Evaluation study of a Navier–Stokes CFD aeroelastic model of wind turbine airfoils in classical flutter
Keywords: تیغه توربین بادی; CFD; Aeroelasticity; Wind turbine blades; Classical flutter; Stability
Structural testing and numerical simulation of a 34 m composite wind turbine blade
Keywords: تیغه توربین بادی; Structural testing; Wind turbine blades; Non-linear finite element analysis; Sub-modelling; Failure mechanism; Brazier effect; Anticlastic effect