Title :
Application of Optimal Control Algorithm to Inertia Friction Welding Process
Author :
Lohe, J. ; Lotz, M. ; Cannon, Mark ; Kouvaritakis, Basil
Author_Institution :
Inst. for Machine Tools & Ind. Manage., Tech. Univ. Muenchen, Garching, Germany
Abstract :
Inertia friction welding (IFW) is a rotational pressure welding process and is a technique commonly used in the production of aircraft engine shafts. With the ever-increasing achievable production tolerances in terms of the upset and angular orientation, it follows that a significant improvement in the control of these quality parameters is called for. The approaches used for this purpose up to now were based on conventional control algorithms which considered only partial feedback and failed to comply with the required narrow tolerances. The objective of this brief is to develop optimal control algorithms which use feedback from the upset and angular orientation and are able to reach the necessary accuracy. The efficacy of these algorithms is established through experimental data collected from an actual IFW test bench.
Keywords :
aerospace components; aerospace engines; aircraft manufacture; feedback; friction welding; optimal control; quality control; shafts; IFW process; IFW test bench; aircraft engine shaft production; angular orientation; inertia friction welding process; optimal control algorithm; partial feedback; production tolerances; quality parameter control; rotational pressure welding process; Force; Friction; Materials; Mathematical model; Process control; Trajectory; Welding; Industrial application; inertia friction welding (IFW); linear quadratic control; optimal control; production process;
Journal_Title :
Control Systems Technology, IEEE Transactions on
DOI :
10.1109/TCST.2012.2189570
