A Compliant Translational Joint (CTJ) is designed via Straight-Line Motion Mechanism Method. The designed CTJ is based on the Pseudo-Rigid-Body-Model (PRBM) of a modified Scott-Russell Mechanism. The precision of the straight-line motion of the rigid-body mechanism adjusts to a straight-line to a 99.6% while the compliant version adjusts to a 99.9%. The novelty of the design is given by the way the CTJ is designed, the performance of the CTJ is achieved by mirroring the mechanism about an axis tangent to the path of the mechanism and that passes through the initial position of the coupler point at the symmetry axis of the path. The CTJ motion is predicted by the PRBM. The force-displacement relations and the frequency modes of the CTJ are a...
Compliant mechanisms are defined as mechanisms that gain some, or all of their mobility from the fle...
We present a compliant mechanism kit as a parallel to the kits available for rigid-body mechanisms. ...
Compliant mechanisms generate motion through the deformation or deflection of its flexible members r...
Compliant mechanisms are defined as mechanical systems that derive some or all of their mobility fro...
This study investigates the dynamics of a partly compliant mechanism with joint clearance. A spatial...
This paper provides a generalized approach for the design of compliant mechanisms. The paper discuss...
Compliant mechanisms accomplish their function due to the elastic deformation of their elements rath...
Abstract — Compliant joints can functionally act as connec-tors as the traditional rigid joints in c...
Compliant Mechanisms (CMs) present several desired properties for mechanical designs. Conventional r...
Compliant mechanisms are defined as those that gain some or all of their mobility from the flexibili...
Compliant mechanisms (CM) are defined as monolithic, flexible structures that use elastic deformatio...
Conventional Parallel Kinematic Machines (PKMs) suffer from poor repeatability due to backlash in va...
The advantages of compliant or flexible link mechanisms include increased design flexibility and red...
AbstractA flexure based compliant parallel (4-bar) mechanism for linear translational motion actuate...
Compliant Mechanisms (CMs) are employed in several applications requiring high precision and reduced...
Compliant mechanisms are defined as mechanisms that gain some, or all of their mobility from the fle...
We present a compliant mechanism kit as a parallel to the kits available for rigid-body mechanisms. ...
Compliant mechanisms generate motion through the deformation or deflection of its flexible members r...
Compliant mechanisms are defined as mechanical systems that derive some or all of their mobility fro...
This study investigates the dynamics of a partly compliant mechanism with joint clearance. A spatial...
This paper provides a generalized approach for the design of compliant mechanisms. The paper discuss...
Compliant mechanisms accomplish their function due to the elastic deformation of their elements rath...
Abstract — Compliant joints can functionally act as connec-tors as the traditional rigid joints in c...
Compliant Mechanisms (CMs) present several desired properties for mechanical designs. Conventional r...
Compliant mechanisms are defined as those that gain some or all of their mobility from the flexibili...
Compliant mechanisms (CM) are defined as monolithic, flexible structures that use elastic deformatio...
Conventional Parallel Kinematic Machines (PKMs) suffer from poor repeatability due to backlash in va...
The advantages of compliant or flexible link mechanisms include increased design flexibility and red...
AbstractA flexure based compliant parallel (4-bar) mechanism for linear translational motion actuate...
Compliant Mechanisms (CMs) are employed in several applications requiring high precision and reduced...
Compliant mechanisms are defined as mechanisms that gain some, or all of their mobility from the fle...
We present a compliant mechanism kit as a parallel to the kits available for rigid-body mechanisms. ...
Compliant mechanisms generate motion through the deformation or deflection of its flexible members r...