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| Motta, Antonella |
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| Mohamed, Tarek |
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| Ertürk, Emre |
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| Taccardi, Nicola |
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| Petrov, R. H. | Madrid |
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| Kočí, Jan | Prague |
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| Azevedo, Nuno Monteiro |
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Shamass, Rabee
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Topics
Publications (15/15 displayed)
- 2023Mechanical and GWP Assessment of Concrete Using Blast Furnace Slag, Silica Fume and Recycled Aggregatecitations
- 2022A Numerical Study of Shape Memory Alloy (SMA) Reinforced Beam Subjected to Seismic Loading
- 2022Mechanical Properties of Bamboo Core Sandwich Panels
- 2022Experimental investigation on the flexural behaviour of stainless steel reinforced concrete beamscitations
- 2022Structural performance of stainless steel reinforced concrete members: A reviewcitations
- 2021Application of Artificial Neural Networks for web-post shear resistance of cellular steel beamscitations
- 2021Ultimate behaviour and serviceability analysis of stainless steel reinforced concrete beamscitations
- 2021Impact of chopped basalt fibres on the mechanical proper- ties of concrete
- 2020Bond behaviour of austenitic stainless steel reinforced concretecitations
- 2020Experimental investigation into the flexural behaviour of basalt FRP reinforced concrete memberscitations
- 2019Analysis of concrete beams reinforced with stainless steel
- 2019Flexural analysis and design of stainless steel reinforced concrete beamscitations
- 2018Bending Moment Capacity of Stainless Steel-Concrete Composite Beams
- 2018Analysis of Stainless Steel-Concrete Composite Beamscitations
- 2017Behaviour of Composite Beams Made Using High Strength Steelcitations
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document
A Numerical Study of Shape Memory Alloy (SMA) Reinforced Beam Subjected to Seismic Loading
Abstract
To safeguard against the loss of life and to maintain integrity, reinforced concrete structures are designed and constructed to withstand severe damage, impact and permanent displacement during a strong earthquake. Due to the dissipation of energy after a major earthquake, steel reinforcement undergoes large strains which lead to damage in the plastic hinge zone. Furthermore, the structure will be unserviceable due to the large residual deformations caused by the permanent strain in steel. Implementation and development of smart materials in structures will help to achieve these qualities. Shape Memory Alloy (SMA) is an example of a smart material, the use of such super elastic material in reinforced structures helps to recover the strain upon unloading which leads to improved recovery. without significant degradation or permanent deformation through repeated cycling. This ability gives a promise in civil engineering infrastructure applications specifically in seismic design. The primary objective of this study is to review the use of SMA in reinforced concrete at the plastic hinge region and to review the behavior of the hybrid beam using finite element software. After validation of the finite element model with the experimental results gathered from past literature, a parametrical study is conducted to understand the behavior of the hybrid beam with a change in parameters.