Showing posts with label structural-parametric model. Show all posts
Showing posts with label structural-parametric model. Show all posts

Thursday, 2 February 2023

Electroelastic Actuator of Nanomechatronics Systems for Nanoscience| Chapter 2 | Recent Progress in Chemical Science Research Vol. 6

 Structural-parametric model, conclusion linear common second-order differential equating, parametric structural diagrammatic diagram, transfer functions of the electroelastic actuator of mechatronics orders for nanoscience are obtained. Effects of lines and physical parameters of the piezoactuator and the outside load on its vital characteristics are persistent. The parametric structural diagrammatic diagram and the transfer functions of the piezoactuator for the transverse, long, shift piezoelectric effects are acquired from the structural-parametric model of the piezoactuator. For forethought of the control systems for nanotechnology accompanying the piezoactuator its the parametric fundamental schematic drawing and the transfer functions are determined. The statement parametric structural diagrammatic diagram of the electroelastic actuator is constructed.

Author(s) Details:

Sergey M. Afonin,
National Research University of Electronic Technology, MIET, Moscow, Russia.

Please see the link here: https://stm.bookpi.org/RPCSR-V6/article/view/9248

Friday, 29 July 2022

Structural-Parametric Model of Electromagnetoelastic Actuator for Nanoscience and Nanotechnology | Chapter 7 | Technological Innovation in Engineering Research Vol. 6

 

The matrix equation for the electromagnetoelastic actuator and the solution to the linear ordinary differential equation are both determined in this chapter. For nanoscience and nanotechnology, the structural diagram, the matrix transfer function, and the properties of the electromagnetoelastic actuator are obtained. The electromagnetoelastic actuator's generalized structural diagram and generalized matrix transfer function are calculated from its generalized structural-parametric model. For control systems in nanoscience and nanotechnology, the piezoactuator's static and dynamic properties are established.

Author(s) Details:

S. M. Afonin,
National Research University of Electronic Technology MIET, Moscow, Russia.

Please see the link here: https://stm.bookpi.org/TIER-V6/article/view/7604