The reduction of stick-slip friction in hydraulic actuators

Author

Owen, William S. ; Croft, Elizabeth A.

Author_Institution

CIM Lab., Univ. of Toronto, Ont., Canada

Volume

8

Issue

3

fYear

2003

Firstpage

362

Lastpage

371

Abstract

The stick-slip friction phenomenon is observed near zero relative velocity, during the transition from static to dynamic friction, when static friction is greater than dynamic friction. This nonlinear change in friction force over a small change in velocity results in difficulties in achieving accurate and repeatable position control. In some cases, the actuator position controller reaches a limit cycle (hunting effect). Friction compensation at low speeds has traditionally been approached through various control techniques. This paper proposes an alternative solution, namely, friction avoidance. By rotating the piston and rod, the Stribeck region of the friction-velocity curve is avoided and the axial friction opposing the piston movement is approximately linearized. Simulation and experimental results are presented to validate this approach.

Keywords

actuators; friction; hydraulic control equipment; limit cycles; position control; stiction; Stribeck region; actuator position controller; axial friction; critical rotating piston speed; dynamic friction; friction avoidance; friction compensation; friction-velocity curve; hunting effect; hydraulic actuators; hysteresis effect; limit cycle; nonlinear friction effects; nonlinear friction force change; phase lag; piston movement; piston rotation; position control; rod rotation; simulation; static friction; static to dynamic friction transition; steady-state error; stick-slip friction reduction; Friction; Hydraulic actuators; Limit-cycles; Linear approximation; Machining; Pistons; Pneumatic actuators; Position control; Seals; Switches;

fLanguage

English

Journal_Title

Mechatronics, IEEE/ASME Transactions on

Publisher

ieee

ISSN

1083-4435

Type

jour

DOI

10.1109/TMECH.2003.816804

Filename

1232296