Analysis and Design of Thermally Actuated Micro-Cantilevers for High Frequency Vibrations Using Finite Element Method

Journals Menu

Follow SCIRP

ISSN Print: 2160-049X
ISSN Online: 2160-0503
www.scirp.org/journal/wjm
E-mail: wjm@scirp.org

"Analysis and Design of Thermally Actuated Micro-Cantilevers for High Frequency Vibrations Using Finite Element Method"
written by Mojtaba Komeili, Carlo Menon,
published by World Journal of Mechanics, Vol.6 No.3, 2016

has been cited by the following article(s):

[1]	Design of Scanning Fiber Micro-Cantilever based Catheter for Ultra-Small Endoscopes
	2023 IEEE World AI IoT Congress …, 2023

[2]	An Electro-Thermal Actuation Method for Resonance Vibration of a Miniaturized Optical-Fiber Scanner for Future Scanning Fiber Endoscope Design
	2019

[3]	Towards the development of a sub 500 micron thermally actuated scanning fiber endoscope for detection of lung cancer
	2018

[4]	Towards the Development of a Sub 500 Micron Thermally Actuated Scanning Fiber Endoscope for Detection of Lung Cancer: A Preliminary Investigation
	Thesis, 2018

[5]	Resonance vibration of a thermally-actuated optical fiber with arbitrary periodic excitation: Analysis and optimization
	International Journal of Mechanical Sciences, 2017

[6]	30. Resonance vibration of an optical fiber micro-cantilever using electro-thermal actuation
	Journal of Mathematical Models in Engineering (MME), 2017

[7]	SIZE EFFECT ON STIFFNESS AND PULL-OFF FORCE OF THERMALLY ACTUATED GOLD CANTILEVERS
	Ro. J. Techn. Sci.- Appl. Mechanics, 2017

[8]	Resonance vibration of an optical fiber micro-cantilever using electro-thermal actuation
	2017

[9]	Modelling the dynamic response of a micro-cantilever excited at its base by an arbitrary thermal input using Laplace transformation
	Applied Mathematical Modelling, 2016

[1]	An Electro-Thermal Actuation Method for Resonance Vibration of a Miniaturized Optical-Fiber Scanner for Future Scanning Fiber Endoscope Design Actuators, 2019 DOI:10.3390/act8010021

[2]	An Electro-Thermal Actuation Method for Resonance Vibration of a Miniaturized Optical-Fiber Scanner for Future Scanning Fiber Endoscope Design Actuators, 2019 DOI:10.3390/act8010021

[3]	Resonance vibration of an optical fiber micro-cantilever using electro-thermal actuation Mathematical Models in Engineering, 2017 DOI:10.21595/mme.2017.18228

[4]	Resonance vibration of an optical fiber micro-cantilever using electro-thermal actuation Mathematical Models in Engineering, 2017 DOI:10.21595/mme.2017.18228

[5]	Modelling the dynamic response of a micro-cantilever excited at its base by an arbitrary thermal input using Laplace transformation Applied Mathematical Modelling, 2017 DOI:10.1016/j.apm.2016.11.017

[6]	Resonance vibration of a thermally-actuated optical fiber with arbitrary periodic excitation: Analysis and optimization International Journal of Mechanical Sciences, 2017 DOI:10.1016/j.ijmecsci.2017.02.019

Follow SCIRP