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Poster

Hoch-Volt Ansteuerung in der FGL-Aktorik

Mittwoch (21.06.2017)
14:11 - 14:14 Uhr

14:11 - 14:14 Uhr

The thermal shape memory effect describes the ability of a deformed material to return to its original shape when heated. This effect is found in shape memory alloys (SMAs) such as nickel-titanium (NiTi). SMA actuator wire is known for its high energy density and allows for the construction of compact systems. An additional advantage is the so-called “self-sensing” effect, which can be used for sensor tasks within an actuator-sensor-system.

In most applications, a current is used to heat the SMA wires through joule heating. Usually a current between zero and four ampere is recommended by the SMA wire manufacturers depending on the wire diameter. Therefore, supply voltage is adjusted to the SMA wire’s electrical resistance to reach the recommended current.

The focus of this work is to use supply voltages of magnitudes higher than the recommended supply voltages on SMA actuator wires. This actuation method has the advantage of being able to use industry standard voltage supplies for SMA actuators. Additionally, depending on the application, faster actuation and higher strokes can be achieved.

The high voltage results in a high current in the SMA wire. To prevent the wire from being destroyed by the high current, short pulses in the micro- and millisecond range are used.

As part of the presented work, a test setup has been constructed to examine the effects of the crucial parameters such as supply voltage amplitude, pulse duration, wire diameter and wire pre-tension. The monitored parameters in this setup are the wire displacement, wire current and force generated by the SMA wire.

 

Sprecher/Referent:
Paul Motzki
ZeMA - Zentrum für Mechatronik und Automatisierungstechnik gGmbH
Weitere Autoren/Referenten:
  • Tom Gorges
    ZeMA - Zentrum für Mechatronik und Automatisierungstechnik gGmbH
  • Thomas Würtz
    Universität des Saarlandes
  • Prof. Dr. Stefan Seelecke
    Universität des Saarlandes, ZeMA - Zentrum für Mechatronik und Automatisierungstechnik gGmbH