Add to ORKGThis thesis improves a previous kinematic analysis and develops the elastic portion of the analysis of a curved compliant beam. This analysis is used to develop a Pseudo-Rigid-Body Model for the curved compliant beam. The Pseudo-Rigid-Body Model consist of kinematic and elastic parameters which can be used to simplify the computation of the large deflections of the beam as it undergoes spherical motion. The kinematic parameters that are developed are the characteristic radius, Gamma*length, the parametric angle coefficient, c_theta, and the kinematic parametrization limit, Capital_theta_max(Gamma). The elastic parameters developed are the stiffness coefficient, K_theta, and the elastic parameterization limit, Capital_theta_max(K). Additiona...
This thesis introduces a novel parametric beam model for describing the kinematics and elastic prope...
Compliant mechanisms gain at least some of their motion from flexible members. The combination of la...
This paper introduces the design of a fully-compliant Spherical Joint (SJ), obtained by the in-paral...
This thesis improves a previous kinematic analysis and develops the elastic portion of the analysis ...
Compliant mechanism theory permits a procedure called rigidbody replacement, in which two or more ri...
The objective of the dissertation is to develop and describe kinematic models (Pseudo-Rigid-Body Mod...
Rigid-body discretization of continuum elements was developed as a method for simplifying the kinema...
Compliant mechanisms are defined as mechanical systems that derive some or all of their mobility fro...
Compliant mechanisms gain some or all of their mobility from the flexibility of their members rather...
Pseudo-rigid-body models help expedite the compliant mechanism design process by aiding the analysis...
Compliant mechanisms derive some or all of their mobility from the flexibility of one or more of the...
The pseudo-rigid-body model (PRBM) concept allows compliant mechanisms to be modeled using existing ...
Geometric nonlinearities often complicate the analysis of systems containing large-deflection member...
none4noThis paper introduces and investigates a novel Spherical Flexure (SF), specifically conceived...
Compliant Mechanisms (CMs) present several desired properties for mechanical designs. Conventional r...
This thesis introduces a novel parametric beam model for describing the kinematics and elastic prope...
Compliant mechanisms gain at least some of their motion from flexible members. The combination of la...
This paper introduces the design of a fully-compliant Spherical Joint (SJ), obtained by the in-paral...
This thesis improves a previous kinematic analysis and develops the elastic portion of the analysis ...
Compliant mechanism theory permits a procedure called rigidbody replacement, in which two or more ri...
The objective of the dissertation is to develop and describe kinematic models (Pseudo-Rigid-Body Mod...
Rigid-body discretization of continuum elements was developed as a method for simplifying the kinema...
Compliant mechanisms are defined as mechanical systems that derive some or all of their mobility fro...
Compliant mechanisms gain some or all of their mobility from the flexibility of their members rather...
Pseudo-rigid-body models help expedite the compliant mechanism design process by aiding the analysis...
Compliant mechanisms derive some or all of their mobility from the flexibility of one or more of the...
The pseudo-rigid-body model (PRBM) concept allows compliant mechanisms to be modeled using existing ...
Geometric nonlinearities often complicate the analysis of systems containing large-deflection member...
none4noThis paper introduces and investigates a novel Spherical Flexure (SF), specifically conceived...
Compliant Mechanisms (CMs) present several desired properties for mechanical designs. Conventional r...
This thesis introduces a novel parametric beam model for describing the kinematics and elastic prope...
Compliant mechanisms gain at least some of their motion from flexible members. The combination of la...
This paper introduces the design of a fully-compliant Spherical Joint (SJ), obtained by the in-paral...