Design and experimental verification of disc spring devices in self‐centering reinforced concrete shear walls

Xiao, Shuijing; Xu, Lihua; Li, Zhongxian

doi:10.1002/stc.2549

Cited by 16 publications

(5 citation statements)

References 24 publications

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“…Another numerical investigation by Xiao, et al [8] focused on analyzing the stress distribution within concrete beams with embedded steel springs. The findings revealed that steel springs effectively redistributed stress, reducing crack propagation and enhancing beam performance.…”

Section: Literature Reviewmentioning

confidence: 99%

Effects of Steel Springs on the Flexural Strength of Normal Concrete Beams: A Numerical and Experimental Study

Mohammed

2023

J. Stud. Sci. Eng.

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In this research study, the possibility of deployment of steel spring utilization to reinforce a concrete beam is investigated and compared with steel bars; this is done to enhance the flexural strength of the structural concrete beam. For this purpose, three specimens are prepared: a plain concrete beam, a reinforced concrete beam, and a spring-reinforced concrete beam. A point bending test is dedicated to calculating the failure strength of each specimen. ABAQUS program is being used to simulate the three test specimens with the same properties as the experimental test samples to verify the results. The results of the numerical simulations for the flexural stress and the plastic strain of each model are collected and compared with the experimental tests. The results manifested a particularly good verification for the experimental tests, and the spring-reinforced concrete beam displayed an excellent flexural strength that exceeded the flexural strength of the reinforced concrete beam. This indicates that the spring-reinforced concrete beam, according to the properties of the spring, is a promising endeavor for use in the construction industry.

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Section: Literature Reviewmentioning

confidence: 99%

Effects of Steel Springs on the Flexural Strength of Normal Concrete Beams: A Numerical and Experimental Study

Mohammed

2023

J. Stud. Sci. Eng.

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“…Guo et al (2014) have created two steel jackets which were fabricated at the wall toes with concrete cast inside so that the concrete spalling and crushing under high local compressive loads are prevented as shown in Figure 12 (a). Xu et al (2018) and Xiao et al (2020) have innovated and applied the two-disc spring devices which exhibit high compression as the replaceable energy dissipation that are symmetrically installed at the two bottom corners of the rocking wall as shown in Figure 12 Apart from the laboratory experiment, numerous computational works on the static and dynamic performance of rocking walls have been conducted mutually. These computational works are based on analytical and numerical studies.…”

Section: Figurementioning

confidence: 99%

Review on the rocking wall systems as a self-centering mechanism and its interaction with floor diaphragm in precast concrete structures

Masrom

Hamid

2020

Lat. Am. j. solids struct.

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The severe damage of precast concrete wall structures that have been recorded in the past earthquake has led to the innovation of the rocking wall concept which can demonstrate free or minimum damage aftershock of an earthquake. Furthermore, extensive research works have been well conducted in the past three decades on the establishment of precast rocking wall systems, designs, details, and techniques. Despite this extensive development, little attention has been devoted to investigate the interaction between the rocking wall systems and the flooring diaphragm. The historical perspective on the development of rocking wall systems over the past few decades in the precast concrete structures is presented. Subsequently, the limited research works on the interaction of precast rocking wall to the floor diaphragm are described. Apart from that, this paper attempts to highlight the application of rocking wall systems in the context of precast connection for the precast load-bearing structures. In this contribution, the precast rocking wall-floor connection for precast load-bearing structures is proposed and presented in this paper.

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“…Many methods can be used to identify the equivalent damping ratio of the test model based on the single degree of freedom [21][22][23][24]. To describe the damping ratio of the model more objectively, a parametric method based on multiple degrees of freedom [25] was used to calculate the constant damping ratio.…”

Section: Parameter Identificationmentioning

confidence: 99%

Dynamic Analysis of a Spring-Asphalt Three-Dimensional Isolation System Based on Cyclic Simple Shear and Shaking Table Tests

Shang

Wang

2020

Applied Sciences

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Damping is one of the important issues related to isolated structures, including the newly proposed low-cost spring-asphalt isolation system. In this study, the damping properties of the system in terms of displacement dependence, frequency dependence and temperature dependence were studied by a cyclic simple shear experiment. Then, the direct least-square method was used to identify the damping properties from the experimental data. Furthermore, to validate the effectiveness of the damping device, a modal analysis was conducted based on multi-dimensional shaking table tests. The results indicate that (1) the hysteretic curves are similar to an ellipse, which means that the asphalt shows characteristics of viscoelastic materials; (2) the damping properties are positively related to the loading frequency and inversely related to the temperature and displacement; and (3) asphalt can provide adequate damping and reduce the displacements of the superstructure by nearly half. On the basis of the experimental test results, an analysis of the modal information with multi-dimensional input is also presented.

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Design and experimental verification of disc spring devices in self‐centering reinforced concrete shear walls

Cited by 16 publications

References 24 publications

Effects of Steel Springs on the Flexural Strength of Normal Concrete Beams: A Numerical and Experimental Study

Effects of Steel Springs on the Flexural Strength of Normal Concrete Beams: A Numerical and Experimental Study

Review on the rocking wall systems as a self-centering mechanism and its interaction with floor diaphragm in precast concrete structures

Dynamic Analysis of a Spring-Asphalt Three-Dimensional Isolation System Based on Cyclic Simple Shear and Shaking Table Tests

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