Optimization of shape control of a cantilever beam using dielectric elastomer actuators

Abstract: Dielectric elastomer (DE) is a kind of smart soft material that has many advantages such as large deformation, fast response, lightweight and easy synthesis. These features make dielectric elastomer a suitable material for actuators. This article focuses on the shape control of a cantilever beam by using dielectric elastomer actuators. The shape control equation in finite element formulation of the cantilever beam partially covered with dielectric elastomer actuators is derived based on the constitutive equati… Show more

“…However, considering other factors such as ease of calculations, the ratio of 20 to 25 is recommended. Other sources have reported the use of specimen length ranging between 200mm to 500mm, for different materials such as composite, wood, and other 3D printing filaments (Guan et al, 2016;Paolino et al, 2017;Slim et al, 2017;Song et al, 2017;Liu, C. et al, 2018;BuchAcz et al, 2018).…”

An Investigation Into Fundamental Frequency Of Intact And Defective 3D-Printed PLA Beams

“…However, considering other factors such as ease of calculations, the ratio of 20 to 25 is recommended. Other sources have reported the use of specimen length ranging between 200mm to 500mm, for different materials such as composite, wood, and other 3D printing filaments (Guan et al, 2016;Paolino et al, 2017;Slim et al, 2017;Song et al, 2017;Liu, C. et al, 2018;BuchAcz et al, 2018).…”

An Investigation Into Fundamental Frequency Of Intact And Defective 3D-Printed PLA Beams

Experimental and Computational Analysis of Elastic Modulus of 3D Printed Parts Using Impulse Excitation Technique (IET)

Finite dimensional shape control design of linear port-Hamiltonian systems with in-domain pointwise inputs