Brian Kelly scite author profile

Abstract. This paper presents the design and the experimental result of the active position control of a shape memory alloy (SMA) wire actuated composite beam. The composite beam has a honeycomb structure with SMA wires embedded in one of its face sheets for the active actuation. The potential applications of this experiment include thermo-distortion compensation for precision space structure, stern shape control for submarines, and flap shape control for aeronautical applications. SMA wires are chosen as the actuating elements due to their high recovery stress (>500 MPa) and tolerance to high strain (up to 6%). However, SMA wires are inherently nonlinear and pose a challenge for control design. A robust controller is designed and implemented to actively control the tip position of the composite beam. The experiment set-up consists of the composite beam with embedded SMA wires, a programmable current/voltage amplifier to actuate the SMA wires, an infrared laser range sensor to detect the beam tip displacement, and a real-time data acquisition and control system. The experimental result demonstrates the effectiveness of the robust control.

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Application of Shape Memory Alloy Wire Actuator for Precision Position Control of a Composite Beam

Song

Lam

Srivatsan

et al. 2000

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Four-point bend adhesion measurements of copper and permalloy systems

Hughey

Morris

Cook

et al. 2004

Engineering Fracture Mechanics

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Active position control of a shape-memory-alloy-wire-actuated composite beam

Song

Kelly

Agrawal

1999

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New Methodology Assessment of Copper Trace and Solder Joint Fatigue Failures in Board-level Random Vibrations for Automotive Applications

Khaldarov¹,

Zhang

Xie

et al. 2023

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Brian Kelly

Active position control of a shape memory alloy wire actuated composite beam

Application of Shape Memory Alloy Wire Actuator for Precision Position Control of a Composite Beam

Four-point bend adhesion measurements of copper and permalloy systems

Active position control of a shape-memory-alloy-wire-actuated composite beam

New Methodology Assessment of Copper Trace and Solder Joint Fatigue Failures in Board-level Random Vibrations for Automotive Applications

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