Multilayer Electromagnetoelastic Actuator for Nanomechanics

Multilayer Electromagnetoelastic Actuator for Nanomechanics

SM Afonin

Contact

1 National Research University of Electronic Technology (MIET)

GJRE Volume 19 Issue A2

Article Fingerprint

ReserarchID

S7F1L

Multilayer Electromagnetoelastic Actuator for Nanomechanics Banner

In this paper, we consider the generalized structural diagram of the multilayer electro magneto elastic actuator or the multilayer piezo actuator for the nanomechanics in contrast to Cady and Mason’s electrical equivalent circuits for the calculation of the piezo transmitter and receiver, the vibration piezo motor. From the solution of the general equation of the electro magneto elasticity, the matrix equation for the equivalent quadripole of the multilayer electro magneto elastic actuator, and its boundary conditions we receive the generalized structuralparametric model, the structural diagram and matrix transfer function of the multilayer actuator.

33 Cites in Articles

References

J Schultz,J Ueda,H Asada (2017). Cellular Actuators.
(1222). Springer Handbook of Nanotechnology.
J Przybylski (2015). Static and dynamic analysis of a flextensional transducer with an axial piezoelectric actuation.
J Ueda,T Secord,H Asada (2010). Large Effective-Strain Piezoelectric Actuators Using Nested Cellular Architecture With Exponential Strain Amplification Mechanisms.
Michael Karpelson,Gu-Yeon Wei,Robert Wood (2012). Driving high voltage piezoelectric actuators in microrobotic applications.
S Afonin (2006). Solution of the wave equation for the control of an electromagnetoelastic transducer.
S Afonin (2008). Structural parametric model of a piezoelectric nanodisplacement transducer.
Sergey Afonin (2018). Multilayer electromagnetoelastic actuator for robotics systems of nanotechnology.
Yaowen Yang,Lihua Tang (2009). Equivalent Circuit Modeling of Piezoelectric Energy Harvesters.
Walter Cady,Joseph Valasek (1946). BOOK REVIEWS: Piezoelectricity: An Introduction to the Theory and Applications of Electro-mechanical Phenomena in Crystals.
(1964). PHYSICAL ACOUSTICS: PRINCIPLES AND METHODS.
D Bolef (1964). Physical Acoustics. Principles and methods. vol. 1, part A. Warren P. Mason, Ed. Academic Press, New York, 1964. xvi + 515 pp. Illus. $18.
D Zwillinger (1989). Handbook of Differential Equations.
Sergey Afonin (2015). Structural–parametric model electroelastic actuator nano– and microdisplacement of mechatronics systems for nanotechnology and ecology research.
S Afonin (2016). Structural-parametric model electromagnetoelastic actuator nano-and microdisplacement for precision engineering.
S Afonin (2016). Structural-parametric models and transfer functions of electromagnetoelastic actuators nano-and microdisplacement for mechatronic systems.
S Afonin (2002). Parametric structural diagram of a piezoelectric converter.
S Afonin (2003). Elastic compliances and mechanical and adjusting characteristics of composite piezoelectric transducers.
S Afonin (2004). Parametric block diagrams of a multi-layer piezoelectric transducer of nano- and microdisplacements under transverse piezoelectric effect.
S Afonin (2005). Generalized parametric structural model of a compound elecromagnetoelastic transduser.
S Afonin (2010). Design of static and dynamic characteristics of a piezoelectric nanomicrotransducer.
S Afonin (2011). Electromechanical deformation and transformation of the energy of a nano-scale piezomotor.
S Afonin (2011). Electroelasticity problems for multilayer nano- and micromotors.
S Afonin (2012). Nano- and micro-scale piezomotors.
S Afonin (2015). Optimal control of a multilayer submicromanipulator with a longitudinal piezo effect.
S Afonin (2015). Block diagrams of a multilayer piezoelectric motor for nano- and microdisplacements based on the transverse piezoeffect.
S Afonin (2006). Absolute stability conditions for a system controlling the deformation of an electromagnetoelastic transducer.
S Afonin (2007). Elastic compliances and mechanical and adjusting characteristics of composite piezoelectric transducers.
S Afonin (2009). Static and dynamic characteristics of a multi-layer electroelastic solid.
S Afonin (2017). Structural-parametric model electromagnetoelastic actuator nanodisplacement for mechatronics.
Sergey Afonin (2017). Structural–parametric model electroelastic actuator nano– and microdisplacement of mechatronics systems for nanotechnology and ecology research.
S Afonin (2018). Electromagnetoelastic Nano- and Microactuators for Mechatronic Systems.
S Afonin (2018). Electromagnetoelastic Actuator for Nanomechanics.

Download References

Funding

No external funding was declared for this work.

Conflict of Interest

The authors declare no conflict of interest.

Ethical Approval

No ethics committee approval was required for this article type.

Data Availability

Not applicable for this article.

SM Afonin. 2019. \u201cMultilayer Electromagnetoelastic Actuator for Nanomechanics\u201d. Global Journal of Research in Engineering - A : Mechanical & Mechanics GJRE-A Volume 19 (GJRE Volume 19 Issue A2): .

More Citation Formats

Select Citation Style:

Download Citation

Download Article

GJRE Volume 19 Issue A2
Pg. 19- 23

Explore Journals Explore Volume Read This Issue

Journal Specifications

Crossref Journal DOI 10.17406/gjre

Print ISSN 0975-5861

e-ISSN 2249-4596

Keywords

Not Found

Classification

GJRE-A Classification: FOR Code: 100799

Submission ReceivedDecember 13, 2018
RevisedDecember 13, 2018
Peer Review Double Blind
Handling Editor
Accepted January 1, 2019
Published January 15, 2019

Version of record

v1.2

Issue date

July 16, 2019

Language

English

Experiance in AR

The methods for personal identification and authentication are no exception.

Read in 3D

The methods for personal identification and authentication are no exception.

Article Matrices

Total Views: 2962

Total Downloads: 1269

2026 Trends

Research Identity (RIN)

Published Article

Our website is actively being updated, and changes may occur frequently. Please clear your browser cache if needed. For feedback or error reporting, please email [email protected]

This Page is Under Development

We are currently updating this article page for a better experience.