Category : Motion control, positioning stages > Micropositioning (components and systems)

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One of the significant properties of the SMAC range of linear actuators is the ability to apply a known force whilst registering position and it is this function which raised the possibility of providing a micro-tensile test station at the Microscopy & Imaging Department of the Dental Institute at King’s College London.

Previously the mechanical testing of biomaterials involved driving a crosshead stage comprising a rotary motor and lead-screw, with a load cell interposed between the sample and the stressing device. The major drawback of this system was the speed limitations during rapid life-cycle fatigue tests and the sensitivity of the load cells which were both expensive and prone to damage during fracture events. The standard SMAC actuator uses a copper voice coil to provide linear motion and force is generated by applying and controlling a known current through the coil, equally force feedback can be monitored by the same means. It also incorporates an integrated optical encoder with resolution options ranging from 5μm to 0.1μm. This assembly is mounted onto a high specification linear guide and consequently it provides a robust unit capable of both applying and reporting force and position at a fraction of the cost of conventional set-ups.

SMAC carried out a series of trials at their European Technical office before deciding on a LAL90-015 with a 0.5μm linear encoder and driven by a LAC-1 single-axis controller. This was consequently supplied to KCL through one of SMAC’s distributors LINOS Photonics Ltd.

The system provides a large dynamic range of actuating velocities and forces and is small enough to fit onto a confocal microscope stage. It has since been used in micro-tensile, fatigue and fracture toughness testing, and as a micro-positioning device. Identical samples have been tested using both SMAC and conventional stages and the results were directly comparable. These results were recently displayed at the International Association for Dental Research meeting in Gothenburg where KCL’s Professor Tim Watson described the SMAC system as “Exhibiting robust construction, great flexibility in application and simple programming and is equally valuable in many other applications such as shear, micro-shear and compressive modes of strength testing.”

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List of all articles in this sub-category Micropositioning (components and systems)

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