Design for manufacturability
Design principles
- Introduction
- Kinematic design
- Statically determined long stroke linear guide
- Additive manufactured laser alignment mechanism
- Allowable misalignment in an overconstrained flexure mechanism
- Allowable misalignments in an overconstrained flexure mechanism: The cross-hinge
- Effects of misalignments on the static and dynamic behavior of a multiple overconstrained compliant 4-bar mechanism
- Exact Constraint Design of a Two-Degree of Freedom Flexure-Based Mechanism
- 5 DOF bike hub force sensor
- Spherical kinematic mount for a Fizeau interferometer
- Large stroke high off-axis stiffness 3DOF spherical flexure joint
- Fully flexure-based large range of motion precision hexapod
- Large range of motion flexure hinge: Infinity flexure
- Flexure based 6 DOF parallel manipulator for fast adaptive optics
- Flexure mechanism for eye surgery pump
- Flexures in a heavy duty H-drive gantry
- Optimal release locations in assembled overconstrained mechanisms for static determinacy
- Bed of Nails increase vibration mode frequencies
- Collimator for CT scanner with 35g centrifugal load
- Improved dynamics by overconstraining using viscoelastic material
- Ultra-stable iso-static bonded optical mount design
- Tip-tilt mirror mechanism with large dynamic range
- Donator, a precision large reduction single-stage transmission mechanism.
- Increasing load capacity and support stiffness of flexures by overconstraining
- T-Flex-LC: A flexure-based hexapod with a simplified kinematic structure
- Double Watts flexure mechanism for a precision vacuum adhesion and friction tester
- Flexure assembly by brazing
- Flexure assembly using Dove tail clamps
- Superconducting magnet plate for planar motor application
- Design using flexures
- Statically determined long stroke linear guide
- Allowable misalignment in an overconstrained flexure mechanism
- Allowable misalignments in an overconstrained flexure mechanism: The cross-hinge
- Effects of misalignments on the static and dynamic behavior of a multiple overconstrained compliant 4-bar mechanism
- Exact Constraint Design of a Two-Degree of Freedom Flexure-Based Mechanism
- Spherical kinematic mount for a Fizeau interferometer
- Large stroke high off-axis stiffness 3DOF spherical flexure joint
- Fully flexure-based large range of motion precision hexapod
- Large range of motion flexure hinge: Infinity flexure
- Flexure based 6 DOF parallel manipulator for fast adaptive optics
- Flexure mechanism for eye surgery pump
- Flexures in a heavy duty H-drive gantry
- Optimal release locations in assembled overconstrained mechanisms for static determinacy
- Collimator for CT scanner with 35g centrifugal load
- Improved dynamics by overconstraining using viscoelastic material
- Increasing load capacity and support stiffness of flexures by overconstraining
- T-Flex-LC: A flexure-based hexapod with a simplified kinematic structure
- Double Watts flexure mechanism for a precision vacuum adhesion and friction tester
- Flexure assembly by brazing
- Flexure assembly using Dove tail clamps
- Anisotropic (2DOF) Tuned Mass Damper (TMD)
- 5 DOF bike hub force sensor
- Additive manufactured laser alignment mechanism
- Balanced Scan stage for in Electron microscope
- Superconducting magnet plate for planar motor application
- Design for static stiffness
- Statically determined long stroke linear guide
- Allowable misalignment in an overconstrained flexure mechanism
- Allowable misalignments in an overconstrained flexure mechanism: The cross-hinge
- Effects of misalignments on the static and dynamic behavior of a multiple overconstrained compliant 4-bar mechanism
- Exact Constraint Design of a Two-Degree of Freedom Flexure-Based Mechanism
- Balancing benefits and drawbacks
- 5 DOF bike hub force sensor
- Fast contactless hydrogen valve for wafer stage application
- Large range of motion flexure hinge: Infinity flexure
- Large stroke high off-axis stiffness 3DOF spherical flexure joint
- Fully flexure-based large range of motion precision hexapod
- Flexure based 6 DOF parallel manipulator for fast adaptive optics
- Flexure mechanism for eye surgery pump
- Flexures in a heavy duty H-drive gantry
- Optimal release locations in assembled overconstrained mechanisms for static determinacy
- Improved dynamics by overconstraining using viscoelastic material
- Ceramic laminate materials for combined high specific stiffness and damping
- Structural optimization of stiffness per unit of mass
- Material utilisation optimisation
- Increasing load capacity and support stiffness of flexures by overconstraining
- T-Flex-LC: A flexure-based hexapod with a simplified kinematic structure
- Double Watts flexure mechanism for a precision vacuum adhesion and friction tester
- Conveyor roller, joining shaft to roller
- Design for dynamic stiffness
- Balancing benefits and drawbacks
- Exact Constraint Design of a Two-Degree of Freedom Flexure-Based Mechanism
- Large stroke high off-axis stiffness 3DOF spherical flexure joint
- Fully flexure-based large range of motion precision hexapod
- Bed of Nails increase vibration mode frequencies
- Improved dynamics by overconstraining using viscoelastic material
- Wire-flexure thermal decoupling, with mixed constraints using flexures and rubber for dynamics stiffness and damping.
- Parcel Sorting System – PosiSorter concept
- Anisotropic (2DOF) Tuned Mass Damper (TMD)
- Design for damping
- Passive damping in semiconductor wafer stages
- Passive damping in semiconductor wafer stages
- Anisotropic eddy current damper
- Tuned mass damper with damped mass far away from point of interest
- Improved dynamics by overconstraining using viscoelastic material
- Wire-flexure thermal decoupling, with mixed constraints using flexures and rubber for dynamics stiffness and damping.
- Ceramic laminate materials for combined high specific stiffness and damping
- Flexure damping with minimal virtual play
- Mitigation of friction-induced hunting limit cycles by a second stage, passive and flexure-based.
- Anisotropic (2DOF) Tuned Mass Damper (TMD)
- Design for low friction and hysteresis
- Passive damping in semiconductor wafer stages
- Fast contactless hydrogen valve for wafer stage application
- Fully flexure-based large range of motion precision hexapod
- Flexure damping with minimal virtual play
- Variable gear preload for (virtual) play reduction
- Passive damping in semiconductor wafer stages
- Design for stability
- Design for low sensitivity
- High-precision 3D coordinate measuring machine according to Abbe and Bryan principle
- Superconducting magnet plate for planar motor application
- Symmetry in actuation – Over-actuation
- Metrology loop – Non-contact measurement machine for freeform optics
- Adjustable stiffness center via 6 DoF maglev
- Active vibration isolation system for cryogenic conditions
- Design for load compensation
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