DocumentCode
1546051
Title
Damage mitigating controller design for structural durability
Author
Patankar, Ravindra ; Ray, Asok
Author_Institution
Dept. of Mech. Eng., Pennsylvania State Univ., University Park, PA, USA
Volume
7
Issue
5
fYear
1999
fDate
9/1/1999 12:00:00 AM
Firstpage
606
Lastpage
612
Abstract
Synthesis of a damage-mitigating control law requires additional information on damage states beyond what is needed for the design of a conventional output feedback controller. In this context, the paper establishes the necessity of a fatigue damage model that must account for the impact of variable-amplitude stress excitation on crack growth rate (e.g., crack retardation and sequence effects). It is shown that predicted structural durability and the damage-mitigating controller design could be grossly inaccurate if the fatigue crack damage model does not represent the effects of variable-amplitude cyclic stress. A specific example is given based on the design of output-feedback damage-mitigating controllers for a reusable rocket engine that was reported in an earlier publication. Simulation results are presented to compare the predicted structural durability and closed-loop performance of the rocket engine under the same controllers for two different damage models, with and without consideration of the effects of variable-amplitude stress
Keywords
closed loop systems; control system synthesis; fatigue cracks; feedback; nonlinear control systems; rocket engines; sampled data systems; crack growth rate; damage mitigating controller; damage states; fatigue damage model; output feedback controller; reusable rocket engine; structural durability; variable-amplitude stress excitation; Control system synthesis; Control systems; Engines; Fatigue; Mechanical variables control; Open loop systems; Predictive models; Rockets; Signal synthesis; Stress control;
fLanguage
English
Journal_Title
Control Systems Technology, IEEE Transactions on
Publisher
ieee
ISSN
1063-6536
Type
jour
DOI
10.1109/87.784424
Filename
784424
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