This paper describes the laser-based structuring of piezoceramic actuators used in a mobile microrobot. The actuator has to meet several requirements. Firstly, the achieved positioning accuracy of the mobile platform should be in the single nanometer range. This leads to the use of piezoelectric ceramics, which support this demand. Secondly, as the robot needs to have up to three degrees of freedom (DoF), a complex actuator design is necessary. Thirdly, a small size of the actuator is advantageous in terms of microrobotics. Conventional structuring especially in three dimensions is challenging, due to the refractory properties of piezoceramics and the danger of short circuits or overheating. The presented laser fabrication process uses an Nd-YAG laser and a developed algorithm to structure special actuators. The successful application in a mobile microrobot proves the concept.
[1]
J. Ready.
LIA handbook of Laser materials processing
,
2001
.
[2]
J. McGeough,et al.
Micromachining of Engineering Materials
,
2001
.
[3]
David W. Richerson,et al.
Modern ceramic engineering: Properties, processing and use in design
,
2018
.
[4]
Mark J. Jackson.
Microfabrication and Nanomanufacturing
,
2005
.
[5]
Chwan-Huei Tsai,et al.
Laser cutting of thick ceramic substrates by controlled fracture technique
,
2003
.
[6]
Sergej Fatikow,et al.
Development, Control and Evaluation of a Mobile Platform for Microrobots
,
2008
.
[7]
Christoph Edeler.
Simulation and experimental evaluation of laser-structured actuators for a mobile microrobot
,
2008,
2008 IEEE International Conference on Robotics and Automation.