Add to ORKGFor the most demanding measurement tasks in force metrology flexure hinges in compliant mechanisms represent a key component. To enhance the mechanical properties of devices like weighing cells, the ability of precise modeling of flexure hinges is essential. The present scientific work focuses on the modeling of the mechanical behavior of a single flexure hinge subjected to geometric deviations and non-ideal loading conditions as those encountered in weighing cells. The considered hinge has a semi-circular contour and a large width compared to its minimum notch height. This geometry is modeled using the finite element method. Requirements for a trustworthy and efficient computation are elaborated under the consideration of geo...
Flexure hinges are commonly used in many applications which require precise and smooth motions in th...
Compliant mechanisms in precision weighing technology are highly sensitive mechanical systems with ...
Flexure hinges are often used in precision systems because in addition to other advantages they all...
Compliant mechanisms with flexure hinges represent a defining element of many precision devices in ...
Compliant mechanisms based on flexure hinges are widely used in precision engineering applications. ...
Compliant mechanisms are widely applied in precision engineering, measurement technology and microte...
Compliant mechanisms based on flexure hinges are widely used in precision engineering applications. ...
A compliant mechanism gains its mobility fully or partially from the compliance of its elastically d...
Notch flexure hinges are often used as revolute joints in high-precise compliant mechanisms, but the...
The sensitivity of electromagnetic force compensated weighing cells can be enhanced by adjusting the...
This paper presents the investigation of specific geometric parameters of planar compliant mechanism...
Flexure hinges are often used as revolute joints in high-precision compliant mechanism, but without ...
This paper presents a unified analytical model of element stiffness matrix for variable cross-sectio...
This paper presents the analytical in-plane compliance calculation methods for single axis circular ...
This paper presents the analysis of a linear stiffness model of an elliptical flexure hinge. The pur...
Flexure hinges are commonly used in many applications which require precise and smooth motions in th...
Compliant mechanisms in precision weighing technology are highly sensitive mechanical systems with ...
Flexure hinges are often used in precision systems because in addition to other advantages they all...
Compliant mechanisms with flexure hinges represent a defining element of many precision devices in ...
Compliant mechanisms based on flexure hinges are widely used in precision engineering applications. ...
Compliant mechanisms are widely applied in precision engineering, measurement technology and microte...
Compliant mechanisms based on flexure hinges are widely used in precision engineering applications. ...
A compliant mechanism gains its mobility fully or partially from the compliance of its elastically d...
Notch flexure hinges are often used as revolute joints in high-precise compliant mechanisms, but the...
The sensitivity of electromagnetic force compensated weighing cells can be enhanced by adjusting the...
This paper presents the investigation of specific geometric parameters of planar compliant mechanism...
Flexure hinges are often used as revolute joints in high-precision compliant mechanism, but without ...
This paper presents a unified analytical model of element stiffness matrix for variable cross-sectio...
This paper presents the analytical in-plane compliance calculation methods for single axis circular ...
This paper presents the analysis of a linear stiffness model of an elliptical flexure hinge. The pur...
Flexure hinges are commonly used in many applications which require precise and smooth motions in th...
Compliant mechanisms in precision weighing technology are highly sensitive mechanical systems with ...
Flexure hinges are often used in precision systems because in addition to other advantages they all...