Sentence examples for under electric loading from inspiring English sources
The simple asymptotic problem of an impermeable crack in an electrostrictive ceramic under electric loading is analyzed.
The wind force exerted on the lattice by the flux of electrons under electric loading in single walled carbon nanotubes is studied using an ensemble Monte-Carlo simulation.
Details of the switching process are analyzed for tetragonal ferroelectric/ferroelastic ceramics under electric loading or uniaxial compression (tension) by using an inverse-pole-figure method.
Discussion on the numerical results indicates that the multiferroic composite consisting of cobalt ferrite and barium titanate layers are more prone to fracture under electric loading than under magnetic loading.
It is found that the overall piezoelectric response under electric loading is not dependent only on the intra- and intergranular stresses in the plane but is also significantly affected by stresses in through-thickness direction.
The effect of actuator thickness on the interfacial stress distributions under electric load is studied.
In the present work, the singularities of an interface crack between two dissimilar electrostrictive materials under electric loads are investigated.
This paper reports a result of investigation on the nonlinear resonant characteristics of graphene/elastic/piezoelectric (GEP) asymmetric laminated films under exciting electric loading, based on nonlocal elastic theory and von Karman strain displacement relations in an active control system.
It is shown that under the electric loading only, the electric fields are uniform not only in the materials but also inside the cracks, while the stress is zero wherever.
A fracture model based on energy analysis was developed which indicates that the energy variation due to the domain switching provides the thermodynamic driving force for the crack propagation under pure electric loading.
This paper investigates the electro-mechanical behaviour of a thick, laminated actuator with piezoelectric and isotropic lamina under externally applied electric loading using a new two-dimensional computational model.
