Superelements for efficient modeling of complex frame parts of flexure joints
Precision Engineering, University of Twente
Superelements for efficient modeling of complex frame parts of flexure joints
2:16
Flexures with varying cross-section to increase support stiffness
Precision Engineering, University of Twente
Flexures with varying cross-section to increase support stiffness
1:48
Refinements in stress computation for wide rectangular beam elements
Precision Engineering, University of Twente
Refinements in stress computation for wide rectangular beam elements
2:06
Kinematically Started Deformation (KSD) method for fast deformation computation of flexures
Precision Engineering, University of Twente
Kinematically Started Deformation (KSD) method for fast deformation computation of flexures
3:02
Beam-based analysis of flexure mechanisms
Precision Engineering, University of Twente
Beam-based analysis of flexure mechanisms
3:40
T-Flex: Compliant Flexure-based Large Range Precision Hexapod
Precision Engineering, University of Twente
T-Flex: Compliant Flexure-based Large Range Precision Hexapod
4:13
Brief look at T-Flex flexure-based hexapod for large range of motion
Precision Engineering, University of Twente
Brief look at T-Flex flexure-based hexapod for large range of motion
1:15
World's First Beer Opening Compliant Mechanism
Precision Engineering, University of Twente
World's First Beer Opening Compliant Mechanism
1:26
Flexure Joints for Large Range of Motion
Precision Engineering, University of Twente
Flexure Joints for Large Range of Motion
5:24