Analysis and Reduction of Time Response in Thermally Activated Shape Memory Alloys

This paper aims to study the factors that affect the time response of Shape Memory Alloys (SMA) and establish a method to improve their activation times. In this work, different parameters such as the number, positions and orientation of the perforations on an SMA blade are studied. SMA blades with various designs based on a generated Hadamard matrix are actuated using Joule heating and its corresponding response in terms of force-time derivative is measured. By adapting the shape of the blade to increase heat transfer in high stress areas, this response was improved. The most relevant factor turned out to be the position of the perforations along the blade, followed by their longitudinal number and orientation. The work shows that by selectively removing material, a blade with the same amount of material can generate a threefold force-time derivative response.

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Yves Perriard, Yoan René Cyrille Civet, Mario Joe Lehmann, Raphaël Johannes Charles Mottet, Sean Thomas
2018
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https://infoscience.epfl.ch/record/258060?ln=en

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Related concepts (31)

Related publications (33)

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Shape-memory alloy

In metallurgy, a shape-memory alloy (SMA) is an alloy that can be deformed when cold but returns to its pre-deformed ("remembered") shape when heated. It is also known in other names such as memory metal, memory alloy, smart metal, smart alloy, and muscle wire. The "memorized geometry" can be modified by fixating the desired geometry and subjecting it to a thermal treatment, for example a wire can be taught to memorize the shape of a coil spring.

Impulse response

In signal processing and control theory, the impulse response, or impulse response function (IRF), of a dynamic system is its output when presented with a brief input signal, called an impulse (δ(t)). More generally, an impulse response is the reaction of any dynamic system in response to some external change. In both cases, the impulse response describes the reaction of the system as a function of time (or possibly as a function of some other independent variable that parameterizes the dynamic behavior of the system).

Frequency response

In signal processing and electronics, the frequency response of a system is the quantitative measure of the magnitude and phase of the output as a function of input frequency. The frequency response is widely used in the design and analysis of systems, such as audio and control systems, where they simplify mathematical analysis by converting governing differential equations into algebraic equations.

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