Articles Related to Piezoelectric
2D Analysis of Piezoelectric Layer Over a Rotating Micro-elongated Thermoelastic Medium with DPL Model
The Lord-Shulman theory with one relaxation time and the dual-phase-lag model with two relaxation times of thermoelasticity are used in this article to study the influence rotation micro-elongated thermoelastic layer, when a piezo electric layer is above it. To convert a partial differential equation to an ordinary differential equation, the normal mode method is utilized. Numerical computations are implemented for aluminum epoxy, and the results are charted. A comparison is made among the two theories in the complete absence and the presence of a rotation. The presence of a rotation has a major effect on all physical quantities.
Numerical Analysis on the Electromechanical Behaviors and Piezotronic Effects Controlled by the Applied of Initial Stress
Based on the linear three-dimensional elastic theory, shear horizontal (SH) wave propagation along the normal direction to the piezoelectric semiconductor plate (PSC) was obtained in the presence of initial horizontal and vertical stresses. The purpose behind obtaining the numerical solutions was to evaluate the effect of stress on dimensionless frequency and phase velocity.
Synthesis of BaTiO3 Nanowires via Anodic Aluminum Oxide Template Method Assisted by Vacuum-and-Drop Loading
In this paper, we report on the synthesis of BaTiO3 nanowires via the anodic aluminum oxide template method. To fill in the precursors of BaTiO3 into anodic aluminum oxide templates, the vacuum and drop loading method developed in our previous study was used. Ba(CH3COO)2 (barium acetate) and C12H28O4Ti (tetraisopropyl orthotitanate) were used as Ba and Ti sources, respectively. Anodic aluminum oxide membranes with the through-hole diameter of ~200 nm were used as the template for BaTiO3 nanowires.