Parametric analysis of slotted concrete shear walls reinforced with shape memory alloy barss

The behavior of masonry shear walls reinforced with pseudoelastic Ni–Ti shape memory alloy (SMA) strips and engineered cementitious composite (ECC) sheets is the main focus of this paper. The walls were subjected to quasi-static cyclic in-plane loads and evaluated by using Abaqus. Eight cases of strengthening of masonry walls were investigated. Three masonry walls were strengthened with different thicknesses of ECC sheets using epoxy as adhesion, three walls were reinforced with different thicknesses of Ni–Ti strips in a cross form bonded to both the surfaces of the wall, and one was utilized as a reference wall without any reinforcing element. The final concept was a hybrid of strengthening methods in which the Ni–Ti strips were embedded in ECC sheets. The effect of mesh density on analytical outcomes is also discussed. A parameterized analysis was conducted to examine the influence of various variables such as the thickness of the Ni–Ti strips and that of ECC sheets. The results show that using the ECC sheet in combination with pseudoelastic Ni–Ti SMA strips enhances the energy absorption capacity and stiffness of masonry walls, demonstrating its efficacy as a reinforcing method.

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Effectiveness of the shape memory alloy reinforcement in concrete coupled shear walls

Journal of Intelligent Material Systems and Structures ◽

10.1177/1045389x16657200 ◽

2016 ◽

Vol 28 (5) ◽

pp. 640-652 ◽

Cited By ~ 5

Author(s):

Mehdi Ghassemieh ◽

Moein Rezapour ◽

Vahid Sadeghi

Keyword(s):

Shape Memory Alloy ◽

Shape Memory ◽

Shear Walls ◽

Shear Wall ◽

Coupling Beams ◽

Permanent Displacement ◽

Finite Element Software ◽

The Third ◽

Superelastic Behavior ◽

Concrete Damage

The use of shape memory alloys as a rebar in concrete structures has been receiving increasing attention among researchers. In this study, it is intended to evaluate the application of superelastic Nitinol in reducing the damage to the coupling beams and opening corners within a concrete shear wall. Abaqus finite element software was utilized to develop three verified coupled shear wall models. First, a model without diagonal and shape memory alloy rebars is developed to assess conventional shear walls with openings. Steel diagonal rebars are embedded in the coupling beams of the second model, and shape memory alloy diagonal rebars are embedded in the coupling beams of the third model. Shape memory alloy is also implemented in the opening corners of the third model. All models are subjected to cyclic loading to evaluate the concrete damage. Results indicated that the diagonal rebars reduced damage to the coupling beam and opening corners. The damages were the least when shape memory alloy diagonal rebars are utilized in the model. The superelastic behavior of the shape memory alloy also reduced permanent displacement of the shear wall subjected to substantial lateral loadings.

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Parametric Analysis of a Compliant Hinge Mechanism for a Shape Memory Alloy Actuated Arm

Volume 2: Modeling, Simulation and Control of Adaptive Systems; Integrated System Design and Implementation; Structural Health Monitoring ◽

10.1115/smasis2017-3738 ◽

2017 ◽

Author(s):

Cody Wright ◽

Onur Bilgen

Keyword(s):

Shape Memory Alloy ◽

Shape Memory ◽

Elbow Joint ◽

Parametric Analysis ◽

Complex Geometries ◽

Biceps Muscle ◽

Dead Load ◽

Revolute Joints ◽

Material Solution ◽

Application Requirements

A compliant hinge is proposed to replace conventional revolute joints for a shape memory alloy actuated arm-like mechanism. The arm-like mechanism is designed to replicate the articulation of the elbow joint, linking the humerus and radius, while being able to lift a dead load using a shape memory alloy wire as the biceps muscle. A parametric analysis on hinge geometry and Young’s modulus is performed to determine if a feasible geometric and material solution exists based on the application requirements. The results indicate optimum solutions are logarithmically correlated between modulus of elasticity and width-to-thickness ratio. Overlaying the results of the parametric study onto an Ashby chart indicates that large hinge widths are necessary. These results indicate more complex geometries are needed for arm-like manipulator applications.

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