Compliant mechanisms gain some or all their mobility from the relative flexibility of their joints rather than from rigid-body joints only. Compliant mechanisms can provide many benefits in the solution of design problems: they have less wear, weight, noise, and backlash than their rigid-body counterparts. They can be manufactured from one piece of material, and therefore they are suitable to be applied in micromechanics. However, nonlinearities introduced by the large deflection of elastic segments further complicate the analysis of compliant mechanisms. This paper considers the isosceles slider–crank mechanism and its compliant counterpart mechanism, being developed based on the rigid–body mechanism. The design of the compound compliant s...
We present a compliant mechanism kit as a parallel to the kits available for rigid-body mechanisms. ...
Compliant mechanisms are mechanical devices that rely on elastic deformation to achieve force and mo...
This paper presents a classification of the deformation behaviour of compliant mechanisms to simplif...
This paper takes into consideration the Scott-Russel mechanism (the isosceles slider–crank mechanis...
A compliant mechanism gains its mobility fully or partially from the compliance of its elastically d...
Compliant mechanisms gain some or all of their mobility from the relative flexibility of their joint...
This paper presents the investigation of specific geometric parameters of planar compliant mechanism...
Flexure hinges are often used in precision systems because in addition to other advantages they all...
[[abstract]]This paper presents the analytic flexure hinge, involved in design optimization for a co...
Compliant mechanisms for ultra-precision applications are often required to achieve highest accuracy...
none4siMonolithic Flexure-based Compliant Mechanisms (MFCM) can be used to conceive nonlinear spring...
Abstract — This paper presents a new analysis approach for optimal design of proportional compliant ...
As compared to conventional mechanisms, compliant mechanisms exploit flexible deformation rather tha...
Compliant mechanisms (CM) are defined as monolithic, flexible structures that use elastic deformatio...
Compliant mechanisms are defined as mechanical systems that derive some or all of their mobility fro...
We present a compliant mechanism kit as a parallel to the kits available for rigid-body mechanisms. ...
Compliant mechanisms are mechanical devices that rely on elastic deformation to achieve force and mo...
This paper presents a classification of the deformation behaviour of compliant mechanisms to simplif...
This paper takes into consideration the Scott-Russel mechanism (the isosceles slider–crank mechanis...
A compliant mechanism gains its mobility fully or partially from the compliance of its elastically d...
Compliant mechanisms gain some or all of their mobility from the relative flexibility of their joint...
This paper presents the investigation of specific geometric parameters of planar compliant mechanism...
Flexure hinges are often used in precision systems because in addition to other advantages they all...
[[abstract]]This paper presents the analytic flexure hinge, involved in design optimization for a co...
Compliant mechanisms for ultra-precision applications are often required to achieve highest accuracy...
none4siMonolithic Flexure-based Compliant Mechanisms (MFCM) can be used to conceive nonlinear spring...
Abstract — This paper presents a new analysis approach for optimal design of proportional compliant ...
As compared to conventional mechanisms, compliant mechanisms exploit flexible deformation rather tha...
Compliant mechanisms (CM) are defined as monolithic, flexible structures that use elastic deformatio...
Compliant mechanisms are defined as mechanical systems that derive some or all of their mobility fro...
We present a compliant mechanism kit as a parallel to the kits available for rigid-body mechanisms. ...
Compliant mechanisms are mechanical devices that rely on elastic deformation to achieve force and mo...
This paper presents a classification of the deformation behaviour of compliant mechanisms to simplif...