On the free vibration and design optimization of a shape memory alloy hybrid laminated composite plate

A shape memory alloy (SMA) is a temperature-dependent smart material that can be used to tune the stiffness of structures in a thermal environment. In the present article, vibrations of hybrid laminated composite plates reinforced with shape memory alloy fibers under temperature change are studied....

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Published in	Acta mechanica Vol. 232; no. 1; pp. 323 - 343
Main Authors	Karimi Mahabadi, Rayehe, Danesh Pazhooh, Mitra, Shakeri, Mahmoud
Format	Journal Article
Language	English
Published	Vienna Springer Vienna 01.01.2021 Springer Springer Nature B.V
Subjects	Analysis Boundary conditions Classical and Continuum Physics Composite structures Control Design optimization Dynamical Systems Embedding Engineering Engineering Fluid Dynamics Engineering Thermodynamics Fibers Free vibration Heat and Mass Transfer Laminar composites Laminated materials Laminates Original Paper Resonant frequencies Shape memory alloys Smart materials Solid Mechanics Stacking sequence (composite materials) Stiffness Temperature dependence Theoretical and Applied Mechanics Thermal buckling Thermal environments Vibration Vibration analysis
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Abstract	A shape memory alloy (SMA) is a temperature-dependent smart material that can be used to tune the stiffness of structures in a thermal environment. In the present article, vibrations of hybrid laminated composite plates reinforced with shape memory alloy fibers under temperature change are studied. Parametric free vibration analysis is conducted to study the effect of the SMA volume fraction, SMA fibers prestrain, length-to-width ratio, and thickness-to-length ratio on the fundamental natural frequency and critical thermal buckling temperature of the hybrid plate subject to fully clamped and fully simply supported boundary conditions. With the objective of maximizing the fundamental natural frequency of the hybrid plate, for the first time, simultaneously, the optimum stacking sequence of the hybrid plate and the best layers to embed the shape memory alloy fibers are found. Interestingly, the study shows that the notion of embedding SMA fibers in the composite plate does not guarantee an increase in the fundamental natural frequency. Depending on the stacking sequence and the layers in which the SMA fibers are embedded, adverse effects might happen. It is shown that inserting the SMA fibers in layers close to the mid-plane maximizes the fundamental natural frequency of the plate.
AbstractList	A shape memory alloy (SMA) is a temperature-dependent smart material that can be used to tune the stiffness of structures in a thermal environment. In the present article, vibrations of hybrid laminated composite plates reinforced with shape memory alloy fibers under temperature change are studied. Parametric free vibration analysis is conducted to study the effect of the SMA volume fraction, SMA fibers prestrain, length-to-width ratio, and thickness-to-length ratio on the fundamental natural frequency and critical thermal buckling temperature of the hybrid plate subject to fully clamped and fully simply supported boundary conditions. With the objective of maximizing the fundamental natural frequency of the hybrid plate, for the first time, simultaneously, the optimum stacking sequence of the hybrid plate and the best layers to embed the shape memory alloy fibers are found. Interestingly, the study shows that the notion of embedding SMA fibers in the composite plate does not guarantee an increase in the fundamental natural frequency. Depending on the stacking sequence and the layers in which the SMA fibers are embedded, adverse effects might happen. It is shown that inserting the SMA fibers in layers close to the mid-plane maximizes the fundamental natural frequency of the plate. A shape memory alloy (SMA) is a temperature-dependent smart material that can be used to tune the stiffness of structures in a thermal environment. In the present article, vibrations of hybrid laminated composite plates reinforced with shape memory alloy fibers under temperature change are studied. Parametric free vibration analysis is conducted to study the effect of the SMA volume fraction, SMA fibers prestrain, length-to-width ratio, and thickness-to-length ratio on the fundamental natural frequency and critical thermal buckling temperature of the hybrid plate subject to fully clamped and fully simply supported boundary conditions. With the objective of maximizing the fundamental natural frequency of the hybrid plate, for the first time, simultaneously, the optimum stacking sequence of the hybrid plate and the best layers to embed the shape memory alloy fibers are found. Interestingly, the study shows that the notion of embedding SMA fibers in the composite plate does not guarantee an increase in the fundamental natural frequency. Depending on the stacking sequence and the layers in which the SMA fibers are embedded, adverse effects might happen. It is shown that inserting the SMA fibers in layers close to the mid-plane maximizes the fundamental natural frequency of the plate.
Audience	Academic
Author	Danesh Pazhooh, Mitra Karimi Mahabadi, Rayehe Shakeri, Mahmoud
Author_xml	– sequence: 1 givenname: Rayehe surname: Karimi Mahabadi fullname: Karimi Mahabadi, Rayehe organization: Department of Mechanical Engineering, Amirkabir University of Technology (Tehran Polytechnic) – sequence: 2 givenname: Mitra orcidid: 0000-0001-6169-418X surname: Danesh Pazhooh fullname: Danesh Pazhooh, Mitra email: daneshm@aut.ac.ir organization: Department of Mechanical Engineering, Amirkabir University of Technology (Tehran Polytechnic) – sequence: 3 givenname: Mahmoud surname: Shakeri fullname: Shakeri, Mahmoud organization: Department of Mechanical Engineering, Amirkabir University of Technology (Tehran Polytechnic)
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Snippet	A shape memory alloy (SMA) is a temperature-dependent smart material that can be used to tune the stiffness of structures in a thermal environment. In the...
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SubjectTerms	Analysis Boundary conditions Classical and Continuum Physics Composite structures Control Design optimization Dynamical Systems Embedding Engineering Engineering Fluid Dynamics Engineering Thermodynamics Fibers Free vibration Heat and Mass Transfer Laminar composites Laminated materials Laminates Original Paper Resonant frequencies Shape memory alloys Smart materials Solid Mechanics Stacking sequence (composite materials) Stiffness Temperature dependence Theoretical and Applied Mechanics Thermal buckling Thermal environments Vibration Vibration analysis
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Title	On the free vibration and design optimization of a shape memory alloy hybrid laminated composite plate
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