Keywords: امپدانس الکترومکانیکی; Concrete; Freezing-thawing; Electromechanical impedance; Damage;
مقالات ISI امپدانس الکترومکانیکی (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: امپدانس الکترومکانیکی; Canine; Piezoelectric sensor; Electromechanical impedance; Stiffness variations; High frequency vibrations;
Keywords: امپدانس الکترومکانیکی; SHM; concrete; aggregate size effect; electromechanical impedance; mechanical impedance; FEM;
Keywords: امپدانس الکترومکانیکی; WP; Wave propagation; NDT; Non-destructive testing; PZT; Lead Zirconate Titanate; EMI; Electromechanical impedance; TOF; Time of flight; Piezoelectric; Lead Zirconate Titanate (PZT); Practical issues; Wave propagation (WP) technique; Monitoring of concret
Keywords: امپدانس الکترومکانیکی; Viscometer; Piezoelectric cantilever; Electromechanical impedance; Quality factor; Equivalent circuit;
Keywords: امپدانس الکترومکانیکی; Structural health monitoring; Non-destructive testing; Electromechanical impedance; Disbond;
Keywords: امپدانس الکترومکانیکی; Drilling system; Autonomous operation; Wheeled rover; Structural health monitoring; Electromechanical impedance; Prototype
Keywords: امپدانس الکترومکانیکی; Structural health monitoring; Electromechanical impedance; ANOVA; Multiple comparison procedures;
Kappa-PSO-FAN based method for damage identification on composite structural health monitoring
Keywords: امپدانس الکترومکانیکی; SHM; Electromechanical Impedance; PZT; Intelligent systems; Particle Swarm Optimization; Neural network;
Distinguishing crack damage from debonding damage of glass fiber reinforced polymer plate using a piezoelectric transducer based nondestructive testing method
Keywords: امپدانس الکترومکانیکی; Electromechanical impedance; Nondestructive testing; Piezoelectric transducer; Damage identification;
Identification of intermediate debonding damage in FRP-strengthened RC beams based on a multi-objective updating approach and PZT sensors
Keywords: امپدانس الکترومکانیکی; Electromechanical impedance; FRP-strengthening; Intermediate debonding; Spectral element method;
Possibility of detecting wall thickness loss using a PZT based structural health monitoring method for metal based pipeline facilities
Keywords: امپدانس الکترومکانیکی; Non-destructive testing; Electromechanical impedance; Piezoelectric; Wall thinning; Pipeline;
Performance analysis of simplified Fuzzy ARTMAP and Probabilistic Neural Networks for identifying structural damage growth
Keywords: امپدانس الکترومکانیکی; SHM; Electromechanical impedance; PZT; Damage assessment; Composite materials;
Delamination detection in CFRP panels using EMI method with temperature compensation
Keywords: امپدانس الکترومکانیکی; EMI; Electromechanical impedance; SHM; Structural health monitoring; Delamination; Damage detection
Debonding detection of FRP strengthened concrete beams by using impedance measurements and an ensemble PSO adaptive spectral model
Keywords: امپدانس الکترومکانیکی; FRP strengthening; Concrete; Debonding; Electromechanical impedance; Spectral model; Structural health monitoring;
Electromechanical impedance spectra investigation of impedance-based PZT and cement/polymer based piezoelectric composite sensors
Keywords: امپدانس الکترومکانیکی; Piezoelectric; Piezoelectric composite; Cement; Electromechanical impedance; Resonant peak
Steel wire electromechanical impedance method using a piezoelectric material for composite structures with complex surfaces
Keywords: امپدانس الکترومکانیکی; Structural health monitoring; Electromechanical impedance; PZT; Composite material; Non-destructive testing
Resonant frequency range utilized electro-mechanical impedance method for damage detection performance enhancement on composite structures
Keywords: امپدانس الکترومکانیکی; Electromechanical impedance; Peak free signature; Sensitivity; Structural health monitoring; Resonance frequency;
Impedance-based structural health monitoring incorporating neural network technique for identification of damage type and severity
Keywords: امپدانس الکترومکانیکی; Piezoelectric sensors; Electromechanical impedance; Damage identification; Neural network; Frequency range selection
Time-domain analysis of piezoelectric impedance-based structural health monitoring using multilevel wavelet decomposition
Keywords: امپدانس الکترومکانیکی; Electromechanical impedance; Structural health monitoring; Wavelet analysis; Time-domain electromechanical impedance
Piezoelectric-based non-destructive monitoring of hydration of reinforced concrete as an indicator of bond development at the steel–concrete interface
Keywords: امپدانس الکترومکانیکی; Piezoelectric materials; Steel–concrete bond; Non-destructive monitoring; Electromechanical impedance
Modeling of EMI response of damaged Mindlin–Herrmann rod
Keywords: امپدانس الکترومکانیکی; Mindlin–Herrmann rod; Electromechanical impedance; Reverberation matrix method; Piecewise-homogeneous model; Shear lag model
Effect of adhesive on the performance of piezoelectric elements used to monitor structural health
Keywords: امپدانس الکترومکانیکی; Adhesive; Bonding; Electromechanical impedance; Piezoelectric element; Structural health monitoring