Modeling of a Reinforced Concrete Beam Using Shape Memory Alloy as Reinforcement Bars

被引:2
|
作者
Bajoria, Kamal M. [1 ]
Kaduskar, Shreya S. [1 ]
机构
[1] Indian Inst Technol, Bombay 400076, Maharashtra, India
来源
ACTIVE AND PASSIVE SMART STRUCTURES AND INTEGRATED SYSTEMS 2017 | 2017年 / 10164卷
关键词
Shape Memory Alloy; Reinforced Concrete Beam; Smart Rebar; ANSYS; Load-Deflection curve; SEISMIC BEHAVIOR; PERFORMANCE; COLUMNS;
D O I
10.1117/12.2260402
中图分类号
O43 [光学];
学科分类号
070207 ; 0803 ;
摘要
In this paper the structural behavior of reinforced concrete (RC) beams with smart rebars under three point loading system has been numerically studied, using Finite Element Method. The material used in this study is Superelastic Shape Memory Alloy (SE SMA) which contains nickel and titanium. Shape memory alloys (SMAs) are a unique class of materials which have ability to undergo large deformation and also regain their un-deformed shape by removal of stress or by heating. In this study, a uniaxial SMA model is able to reproduce the pseudo-elastic behavior for the reinforcing SMA wires. Finite element simulation is developed in order to study the load-deflection behavior of smart concrete beams subjected to three-point bending tests.
引用
收藏
页数:8
相关论文
共 50 条
  • [21] Cyclic Performance of Shape Memory Alloy Reinforced Concrete Walls
    Abraik, Emad A.
    Youssef, Maged A.
    RESPONSE OF STRUCTURES UNDER EXTREME LOADING, 2015, : 326 - 333
  • [22] Superelastic shape memory alloy cables for reinforced concrete applications
    Mas, B.
    Biggs, D.
    Vieito, I.
    Cladera, A.
    Shaw, J.
    Martinez-Abella, F.
    CONSTRUCTION AND BUILDING MATERIALS, 2017, 148 : 307 - 320
  • [23] Load carrying capacity of RCC beams by replacing steel reinforcement bars with shape memory alloy bars
    Bajoria, Kamal M.
    Kaduskar, Shreya S.
    ACTIVE AND PASSIVE SMART STRUCTURES AND INTEGRATED SYSTEMS 2016, 2016, 9799
  • [24] Machine learning-assisted drift capacity prediction models for reinforced concrete columns with shape memory alloy bars
    Lee, Chang Seok
    Mangalathu, Sujith
    Jeon, Jong-Su
    COMPUTER-AIDED CIVIL AND INFRASTRUCTURE ENGINEERING, 2024, 39 (04) : 595 - 616
  • [25] Shear performance of seawater sea-sand concrete beams reinforced with shape memory alloy longitudinal and stirrup bars
    Li, Zongao
    Dong, Fuming
    Qian, Hui
    Qiu, Peifan
    Shi, Yifei
    CONSTRUCTION AND BUILDING MATERIALS, 2024, 421
  • [26] Effect of Shape Memory on the Mechanical Properties of Concrete Reinforced with Short Shape Memory Alloy Fibers
    Shi, Mingfang
    Yuan, Jiaqi
    Zhao, Jitao
    Zhu, Miaomiao
    Tang, Xiaojun
    Xu, Lidan
    Chen, Ming
    JOURNAL OF MATERIALS IN CIVIL ENGINEERING, 2024, 36 (12)
  • [27] Behaviour of Smart Reinforced Concrete Beam with Super Elastic Shape Memory Alloy subjected to Monotonic Loading
    Abd Hamid, Nubailah
    Ibrahim, Azmi
    Adnan, Azlan
    Ismail, Muhammad Hussain
    3RD INTERNATIONAL CONFERENCE ON THE SCIENCE AND ENGINEERING OF MATERIALS (ICOSEM 2017), 2018, 1958
  • [28] Seismic behaviour of repaired superelastic shape memory alloy reinforced concrete beam-column joint
    Nehdi, Moncef
    Alam, M. Shahria
    Youssef, Maged A.
    SMART STRUCTURES AND SYSTEMS, 2011, 7 (05) : 329 - 348
  • [29] Behavior of concrete beam with embedded shape memory alloy wires
    Deng, Zongcai
    Li, Qingbin
    Sun, Hongjun
    ENGINEERING STRUCTURES, 2006, 28 (12) : 1691 - 1697
  • [30] Effectiveness of the shape memory alloy reinforcement in concrete coupled shear walls
    Ghassemieh, Mehdi
    Rezapour, Moein
    Sadeghi, Vahid
    JOURNAL OF INTELLIGENT MATERIAL SYSTEMS AND STRUCTURES, 2017, 28 (05) : 640 - 652
12345