33 research outputs found
Design of a large deflection compliant mechanism with active material for vibration suppression
Importance of Warping in Beams with Narrow Rectangular Cross-Sections:An Analytical, Numerical and Experimental Flexible Cross-Hinge Case Study
Flexure mechanism with increased dynamic performance by overconstraining using viscoelastic material
An Analytical Formulation for the Lateral Support Stiffness of a Spatial Flexure Strip
A flexure strip has constraint characteristics, such as stiffness properties and error motions, that limit its performance as a basic constituent of flexure mechanisms. This paper presents a framework for modeling the deformation and stiffness characteristics of general three-dimensional flexure strips that exhibit bending, shear and torsion deformation. The formulation is based on a finite strain discrete spatial beam element with refinements to account for plate-like behavior due to constrained cross-sectional warping. This framework is suited for analytical calculations thanks to the accuracy of the beam element, while its discrete nature allows for easy implementation in numeric software to serve as calculation aid. As case study, a closed-form parametric analytical expression is derived for the lateral support stiffness of a parallel flexure mechanism. This captures the deteriorating support stiffness when the mechanism moves in the intended degree of freedom. By incorporating relevant geometric nonlinearities and a warping constraint stiffening factor, an accurate load-displacement and stiffness expression for the lateral support direction is obtained. This result is verified by nonlinear finite element analysis