Thematische Bibliographien / Structural frames Earthquake resistant design / Zeitschriftenartikel
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Zeitschriftenartikel zum Thema „Structural frames Earthquake resistant design“

Autor: Grafiati
Veröffentlicht am 4. Juni 2021
Zuletzt aktualisiert am 9. Februar 2022

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1

Redwood, R. G., L. Lefki, and G. Amar. "Earthquake resistant design of steel moment resisting frames." Canadian Journal of Civil Engineering 17, no. 4 (1990): 659–67. http://dx.doi.org/10.1139/l90-075.

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New provisions of the CSA Standard for Steel Structures (CAN/CSA-S16.1-M89) dealing with detailing of moment resisting frames for seismic design are described and related to requirements of the National Building Code of Canada. The basis of the new requirements is outlined, and an example eight-storey frame is used to illustrate the impact of the provisions. Key words: design, structural engineering, steel, earthquakes, moment resisting frame, standards.
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Redwood, R. G., and V. S. Channagiri. "Earthquake resistant design of concentrically braced steel frames." Canadian Journal of Civil Engineering 18, no. 5 (1991): 839–50. http://dx.doi.org/10.1139/l91-101.

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New provisions of the CSA standard for steel structures (CAN/CSA-S16.1-M89) dealing with detailing of concentrically braced frames for seismic design are described and related to requirements of the National Building Code of Canada. The basis of the new requirements is outlined, and an example eight-storey frame is used to outline a methodology for the design process for a ductile braced frame and to illustrate the impact of the provisions. Key words: design, structural engineering, steel, earthquakes, braced frame, standards.
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3

Filiatrault, A., and S. Cherry. "Efficient numerical modelling for the design of friction damped braced steel plane frames." Canadian Journal of Civil Engineering 16, no. 3 (1989): 211–18. http://dx.doi.org/10.1139/l89-046.

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A novel friction damping system for the aseismic design of framed buildings has been proposed by Canadian researchers. The system has been shown experimentally to perform very well and is an exciting development in earthquake resistant design.The design of a building equipped with the friction damping system is achieved by determining the optimum slip load distribution to minimize structural response. The optimum slip load distribution is usually determined using the general nonlinear dynamic computer program DRAIN-2D, which requires extensive computer time and is not practical for most design
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Kim, Hee Cheul, Jung Woo Park, Jin Young Park, Young Hak Lee, and Dae Jin Kim. "Structural Behavior of a Steel Grid Shear Wall Subjected to Combined Axial and Cyclic Lateral Loads." Applied Mechanics and Materials 479-480 (December 2013): 1175–79. http://dx.doi.org/10.4028/www.scientific.net/amm.479-480.1175.

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The effects of earthquakes can be devastating especially to existing structures that are not based on earthquake resistant design. This study proposes a steel grid shear wall that can provide a sufficient lateral resistance and can be used as a seismic retrofit method. An experiment was performed on reinforced concrete (RC) frames with and without the steel grid shear wall proposed in this study. These frame specimens were subjected to combined axial and cyclic lateral loads that were applied by using two actuators with a maximum capacity of 500 kN and a single actuator with a maximum capacity
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5

González Ureña, Andrés, Robert Tremblay, and Colin A. Rogers. "Earthquake-resistant design of steel frames with intentionally eccentric braces." Journal of Constructional Steel Research 178 (March 2021): 106483. http://dx.doi.org/10.1016/j.jcsr.2020.106483.

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6

YILMAZ, Mehmet Fatih. "The Effect of Different Braced Configurations on the Nonlinear Seismic Behavior of Steel Structure." Civil Engineering Beyond Limits 1, no. 1 (2019): 22–28. http://dx.doi.org/10.36937/cebel.2020.001.005.

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Improvements in construction technologies have allowed steel structural elements to become more frequently used today in order to enable different architectural designs and to meet structural performance more effectively and efficiently. Structural steel has been used for more than a hundred years and has been tested under real earthquakes, which provide the basis of many earthquake-resistant steel construction standards. The major advantage of steel construction material is that it allows for large plastic deformations. Structural deformations vary depending on the deformation capacity of the
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Li, Shuang, and Jintao Zhang. "Retrofit Existing Frame Structures to Increase Their Economy and Sustainability in High Seismic Hazard Regions." Applied Sciences 9, no. 24 (2019): 5486. http://dx.doi.org/10.3390/app9245486.

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The study proposes a retrofitting method with an optimum design of viscous dampers in order to improve the structural resistant capacity to earthquakes. The retrofitting method firstly uses a 2D frame model and places the viscous dampers in the structure to satisfy the performance requirements under code-specific design earthquake intensities and then performs an optimum design to increase the structural collapse-resistant capacity. The failure pattern analysis and fragility analysis show that the optimum design leads to better performance than the original frame structure. For regular structu
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Bhunia, Dipendu, Vipul Prakash, and Ashok D. Pandey. "A Conceptual Design Approach of Coupled Shear Walls." ISRN Civil Engineering 2013 (October 9, 2013): 1–28. http://dx.doi.org/10.1155/2013/161502.

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Earthquake causes considerable damage to a large number of RCC high-rise buildings and tremendous loss of life. Therefore, designers and structural engineers should ensure to offer adequate earthquake resistant provisions with regard to planning, design, and detailing in high-rise buildings to withstand the effect of an earthquake and minimize disaster. As an earthquake resistant system, the use of coupled shear walls is one of the potential options in comparison with moment resistant frame (MRF) and shear wall frame combination systems in RCC high-rise buildings. Furthermore, it is reasonably
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Pantazopoulou, S. J., and J. F. Bonacci. "On earthquake-resistant reinforced concrete frame connections." Canadian Journal of Civil Engineering 21, no. 2 (1994): 307–28. http://dx.doi.org/10.1139/l94-032.

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The behavior of earthquake-resistant reinforced concrete frame connections has been researched extensively over the past 30 years, but conflicting interpretations of the underlying physical problem and differences of opinion in defining acceptable performance criteria still pervade almost every aspect of connection behavior and design. This study explores the mechanics of reinforced concrete beam-column joints under lateral loads, with the aim to assess the parametric dependence of the behavior of these elements for the benefit of design. In the course of the study, published experimental info
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Kalman Šipoš, Tanja, Hugo Rodrigues, and Marin Grubišić. "Simple design of masonry infilled reinforced concrete frames for earthquake resistance." Engineering Structures 171 (September 2018): 961–81. http://dx.doi.org/10.1016/j.engstruct.2018.02.072.

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11

Valente, Marco. "Displacement-Based Seismic Design of Steel Frames Strengthened by Buckling-Restrained Braces." Applied Mechanics and Materials 217-219 (November 2012): 1114–18. http://dx.doi.org/10.4028/www.scientific.net/amm.217-219.1114.

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This study presents a displacement-based design procedure for seismic retrofitting of steel frames using buckling-restrained braces (BRB) to meet a given target displacement in the framework of the capacity spectrum method. The seismic performance of a six-storey steel frame equipped with BRB is investigated. Different storey-wise BRB distribution methods are proposed and the influence on the results of the design procedure is analyzed. Nonlinear dynamic analyses demonstrate the efficacy of the design procedure showing the improvements achieved by the retrofitting intervention using BRB. The m
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AGUIRRE, M. "EARTHQUAKE-RESISTANT STRUCTURE: STRUCTURAL FRAME DAMPER SYSTEM - AN APPROACH TO DESIGN." Proceedings of the Institution of Civil Engineers - Structures and Buildings 122, no. 2 (1997): 165–72. http://dx.doi.org/10.1680/istbu.1997.29306.

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Suwondo, Riza, Martin Gillie, Lee Cunningham, and Colin Bailey. "Effect of earthquake damage on the behaviour of composite steel frames in fire." Advances in Structural Engineering 21, no. 16 (2018): 2589–604. http://dx.doi.org/10.1177/1369433218761138.

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Fire loading following earthquake loading is possible in any building in a seismic-prone area. However, most design approaches do not consider fire following earthquake as a specific loading case. Moreover, seismic design philosophies allow a certain degree of damage in structural elements which make structures more vulnerable when subjected to post-earthquake fire. This study uses three-dimensional numerical models to investigate the effect of earthquake damage on the fire resistance of composite steel-frame office buildings. A total of two types of earthquake damage, fire insulation delamina
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Dubină, Dan, Florea Dinu, and Ioan Marginean. "Multi-Hazard Risk Mitigation through Application of Seismic Design Rules." Key Engineering Materials 763 (February 2018): 1139–46. http://dx.doi.org/10.4028/www.scientific.net/kem.763.1139.

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Multi-story buildings often use steel moment frames as lateral force resisting systems, because such systems would allow architectural flexibility, while providing the strength, stiffness, and ductility required to resist the gravity, wind, and seismic loads. Steel moment frames on which capacity design concepts are applied to resist earthquake induced forces, are generally considered robust structures, with adequate resistance against collapse for other extreme hazards, for example blast or impact. Starting from this point, the present paper summarizes the results of some recent studies carri
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Macedo, Luís, Antonio Silva, and José Miguel Castro. "From Design to Earthquake Loss Assessment of Steel Moment-Resisting Frames." Key Engineering Materials 763 (February 2018): 124–30. http://dx.doi.org/10.4028/www.scientific.net/kem.763.124.

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Steel moment-resisting frames (MRFs) are well known for their ductile and stable hysteretic behaviour. For this reason, they are an attractive and effective structural system for seismic resistance. Current seismic design codes, namely Eurocode 8, provide system performance factors that should be used in the seismic design under different ductility classes. However, recent research studies have shown that the use of the code-prescribed performance factors lead to stiffer and heavier structural solutions that are not consistent with the performance-based design assumptions. A new methodology, I
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Oktavianus, Yusak, Helen Goldsworthy, Emad Gad, and Saman Fernando. "The Effect of Consecutive Earthquakes on a Composite Structure Utilising RBRFs." Key Engineering Materials 763 (February 2018): 854–63. http://dx.doi.org/10.4028/www.scientific.net/kem.763.854.

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Low-damage technologies have been developed in recent years which limit the damage imposed on structural elements when a building is subjected to a very rare earthquake event. This has been achieved by a capacity design approach applied to the connections in which the ductile part of the connections yields and all other structural elements remain elastic. Examples of low-damage connections are the sliding hinge joint in steel buildings and variations associated with this, and a combination of a post-tensioning system and mild steel dissipater in precast concrete and timber buildings. A system
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Totter, Eduardo, Antonio Formisano, Federico M. Mazzolani, and Francisco Crisafulli. "Strip Model Analysis for Steel Plate Shear Walls in Earthquake Resistant Structures." Key Engineering Materials 763 (February 2018): 743–50. http://dx.doi.org/10.4028/www.scientific.net/kem.763.743.

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Unstiffened Steel Plate Shear Walls (SPSWs) are very effective structural systems designed to resist lateral forces. SPSW systems consist of thin web plates infilled within frames of steel horizontal and vertical boundary elements. The thin unstiffened web plates are expected to buckle in shear and to develop diagonal tension field after buckling under the action of horizontal loads. For unstiffened steel plates, buckling in shear occurs in the elastic range at low stress levels. This behaviour provides strength, stiffness and ductility and allows to have an appropriate level of energy dissipa
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Basim, Shahnaz, Farzad Hejazi, and Raizal Saifulnaz Bin Muhammad Rashid. "Embedded carbon fiber-reinforced polymer rod in reinforced concrete frame and ultra-high-performance concrete frame joints." International Journal of Advanced Structural Engineering 11, S1 (2019): 35–51. http://dx.doi.org/10.1007/s40091-019-00253-7.

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AbstractBeam–column joints play an important role in providing lateral stiffness and integrity of frames during dynamic loading such as earthquake. In the high humidity areas, during functioning of the building cracks occur, which leads to the corrosion of the reinforcement due to the environmental exposures. Therefore, one of the main failures mechanism of building during an earthquake is caused by easily yielding of corroded steel reinforcement, which leads to reduce functionality of the frame joints in transferring the loads. This study proposed a new design to reinforce the beam-column joi
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Foti, Dora. "On the Seismic Response of Protected and Unprotected Middle-Rise Steel Frames in Far-Field and Near-Field Areas." Shock and Vibration 2014 (2014): 1–11. http://dx.doi.org/10.1155/2014/393870.

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Several steel moment-resisting framed buildings were seriously damaged during Northridge (1994); Kobe (1995); Kocaeli, Turkey (1999), earthquakes. Indeed, for all these cases, the earthquake source was located under the urban area and most victims were in near-field areas. In fact near-field ground motions show velocity and displacement peaks higher than far-field ones. Therefore, the importance of considering near-field ground motion effects in the seismic design of structures is clear. This study analyzes the seismic response of five-story steel moment-resisting frames subjected to Loma Prie
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Zhao, Hong Sheng, and Hui Ji. "Multi-Target Optimization Design of Earthquake-Resistant Structure Taking Ductility and Cost into Account." Advanced Materials Research 163-167 (December 2010): 2415–19. http://dx.doi.org/10.4028/www.scientific.net/amr.163-167.2415.

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Using the conventional structural design methods, the design result is usually not the most economical and the most reasonable. While, using the single target structural optimization design method, duo to the only one target function to be optimized, the design result often can not meet with the multiple requirements of structural designing, furthermore its optimizing efficiency is low. So its application is limited. This paper proposes multi-target earthquake-resistant optimization design method for reinforced concrete frame structure under earthquake loading. In the optimization design appro
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Kumar, Puneet, and Gaurav Srivastava. "Numerical modeling of structural frames with infills subjected to thermal exposure." Journal of Structural Fire Engineering 8, no. 3 (2017): 218–37. http://dx.doi.org/10.1108/jsfe-05-2017-0031.

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PurposeReinforced concrete structural frames with masonry infills (infill-frames) are commonly used for construction worldwide. While the behavior of such frames has been studied extensively in the context of earthquake loading, studies related to their fire performance are limited. Therefore, this study aims to characterize the behavior of infill-frames under fire exposure by presenting a state-of-the-art literature review of the same.Design/methodology/approachBoth experimental and computational studies have been included with a special emphasis on numerical modeling (simplified as well as a
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Ayuddin, Ayuddin. "GLOBAL STRUCTURAL ANALYSIS OF HIGH-RISE HOSPITAL BUILDING USING EARTHQUAKE RESISTANT DESIGN APPROACH." SINERGI 24, no. 2 (2020): 95. http://dx.doi.org/10.22441/sinergi.2020.2.003.

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Building designed has 1 to 8 floors with the quality of concrete f'c of 33.2 MPa, steel quality (fy) 400 MPa, and shear stress of 240 MPa. The building is analyzed by 3D structure modeling through ETABS Version 9.7 program by following all the rules and regulations applicable in Indonesia, such as the guidance of building structure and non-building, SNI 1726: 2012. This building design system is a high-rise building structure planned with a portal frame system with beams and columns as the main elements of structures made of conventional concrete. The beam carries the load transversely of its
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Zhou, Hua. "Reconsideration of Seismic Performance and Design of Beam-Column Joints of Earthquake-Resistant Reinforced Concrete Frames." Journal of Structural Engineering 135, no. 7 (2009): 762–73. http://dx.doi.org/10.1061/(asce)0733-9445(2009)135:7(762).

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Djebbar, Nabil, and Nasr-Eddine Chikh. "LIMIT PERIOD BASED ON APPROXIMATE ANALYTICAL METHODS ESTIMATING INELASTIC DISPLACEMENT DEMANDS OF BUILDINGS." JOURNAL OF CIVIL ENGINEERING AND MANAGEMENT 13, no. 4 (2007): 282–90. http://dx.doi.org/10.3846/13923730.2007.9636448.

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The Algerian seismic design code (RPA99) recommends a limit on the elastic period as a governing factor in the design process of low and mid‐rise buildings, function of the structural system regardless of the related ductility level. The recommended limit criterion is evaluated through approximate analytical methods using drift limit. The assignable displacement ductility ratio for the force reduction factor is derived from some well established R‐μ‐Tn expressions. The limit period evaluation procedure (proposed in this paper) agrees with a capacity design approach since it allows for adjustin
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Hu, Xiao, and Yong Tao Gao. "Dynamic Analysis of Frame-Shear Wall Structure of Concrete Filled Steel Tube under Rare Earthquake." Advanced Materials Research 368-373 (October 2011): 3624–27. http://dx.doi.org/10.4028/www.scientific.net/amr.368-373.3624.

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.In this paper, seismic behaviors of the frame-shear wall structure, which are composed of the concrete filled steel tubular (CFST) column, have been studied. Dynamic behaviors and earthquake responses of the CFST under rare earthquake are analyzed. Comparing the calculation results, the earthquake resistant behavior of the CFST structure has been appraised synthetically, which may be referential for structural design.
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Miao, Zhi Wei, Zhao Yun Qiu, and Yang Ming. "Study on Energy Dissipation Mechanism and Collapse-Resistant Performance of RC Frame-Shear-Wall Structure under Strong Earthquake." Applied Mechanics and Materials 204-208 (October 2012): 2550–54. http://dx.doi.org/10.4028/www.scientific.net/amm.204-208.2550.

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Energy dissipation mechanism is very important for the structural collapse-resistant performance under strong earthquakes. Two reinforced concrete (RC) frame-shear-wall structures with different span-depth ratios in coupling beams were designed according to current Chinese seismic design code and then analyzed by nonlinear time-history analysis method under a serial of strong earthquake records. Based on the analysis results, energy dissipation mechanism and collapse-resistant performance of the two structures under strong earthquakes are studied. And the “strong wall limb-weak coupling beam”
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Wu, Fangwen, Jingwen Zhou, Yangyang Zhao, et al. "Performance-Based Seismic Fragility and Risk Assessment of Five-Span Continuous Rigid Frame Bridges." Advances in Civil Engineering 2021 (April 8, 2021): 1–15. http://dx.doi.org/10.1155/2021/6657663.

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Earthquakes can cause serious damage to traffic infrastructures, among which the impact on bridge structure is the most important. Therefore, in order to assess bridges serviceability, it is important to master their damage mechanism and to analyze its probability of occurrence under a given seismic action. Various uncertainties, like the location of epicentre of future earthquakes and their magnitudes, make this task quite challenging. We are also required to consider different earthquake scenarios and the damaged states of bridge components associated with those earthquakes. To suppress thes
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Wang, Hanqin, Yulong Feng, Jing Wu, Qing Jiang, and Xun Chong. "Damage Concentration Effect of Multistory Buckling-Restrained Braced Frames." Advances in Civil Engineering 2019 (March 27, 2019): 1–15. http://dx.doi.org/10.1155/2019/7164373.

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Due to the low postyield stiffness of buckling-restrained braces (BRBs), multistory buckling-restrained braced frames (BRBFs) subjected to earthquakes are prone to lateral deformations and damage concentrations at certain stories, which is deemed a damage concentration effect (DCE). A series of nonlinear pushover analyses and response history analyses are conducted to investigate the key factors affecting the DCE of BRBFs. Two comparisons of the DCE are performed for different types of structures and different beam-to-column connections in the main frame (MF). These comparisons show that BRBFs
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E.V., Shipacheva, Pirmatov R. Kh., and Turdalieva M.K. "Heat Engineering Heterogeneity Of The Outer Walls Of Earthquake-Resistant Buildings." American Journal of Interdisciplinary Innovations and Research 02, no. 12 (2020): 1–8. http://dx.doi.org/10.37547/tajiir/volume02issue12-01.

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When assessing the level of energy efficiency of civilian buildings, a special place is given to establishing the level of thermal protection of their external enclosing structures. Significant discrepancies in the results of theoretical and experimental studies of heat fluxes through the outer walls of buildings erected in seismic areas are associated with the design features of fences - the presence of reinforced concrete elements in them: anti-seismic belts at the level of floors, cores at intersections of walls and along the edges of large window openings ... In addition, in recent years,
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D'Antimo, Marina, Mariana Zimbru, Mario D'Aniello, Jean François Demonceau, Jean Pierre Jaspart, and Raffaele Landolfo. "Preliminary Finite Element Analyses on Seismic Resistant FREE from DAMage Beam to Column Joints under Impact Loading." Key Engineering Materials 763 (February 2018): 592–99. http://dx.doi.org/10.4028/www.scientific.net/kem.763.592.

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Nowadays, the interest on structural robustness is increasing because of the recent terroristic attacks. Although a large number of research projects have been carried out in this field, limited design guidelines as well as code recommendations are nowadays available. Leading to the fact that the design for robustness is far from being current practice. Conversely, the design for natural hazards as the earthquake is a well-consolidated practice and modern codes implement effective and well-recognized design rules. Even though seismic design philosophy based on the concept of hierarchy of resis
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Krätzig, Wilfried B., and Yuri S. Petryna. "Quasistatic Seismic Damage Indicators for RC Structures from Dissipating Energies in Tangential Subspaces." Mathematical Problems in Engineering 2014 (2014): 1–11. http://dx.doi.org/10.1155/2014/615792.

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This paper applies recent research on structural damage description to earthquake-resistant design concepts. Based on the primary design aim of life safety, this work adopts the necessity of additional protection aims for property, installation, and equipment. This requires the definition of damage indicators, which are able to quantify the arising structural damage. As in present design, it applies nonlinear quasistatic (pushover) concepts due to code provisions as simplified dynamic design tools. Substituting so nonlinear time-history analyses, seismic low-cycle fatigue of RC structures is a
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Paulay, T., and W. J. Goodsir. "The capacity design of reinforced concrete hybrid structures for multistorey buildings." Bulletin of the New Zealand Society for Earthquake Engineering 19, no. 1 (1986): 1–17. http://dx.doi.org/10.5459/bnzsee.19.1.1-17.

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To complement existing capacity design procedures used in New Zealand for reinforced concrete buildings in which earthquake resistance is provided by ductile frames or ductile structural walls, an analogous methodology is presented for the design of ductile hybrid structures. Modelling and types of structures in which the mode of wall contribution is different are briefly described. A step by step description of a capacity design procedure for a structural system in which fixed base ductile frames and walls, both of identical height, interact, is presented. The rationale for each step is outli
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Medhekar, M. S., and DJL Kennedy. "Seismic response of two-storey buildings with concentrically braced steel frames." Canadian Journal of Civil Engineering 26, no. 4 (1999): 497–509. http://dx.doi.org/10.1139/l99-007.

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The seismic performance of two-storey steel buildings with concentrically braced frames as the lateral load resisting system is evaluated. The buildings are designed in accordance with the National Building Code of Canada (1995) and CSA Standard S16.1-94 for five seismic zones in western Canada. Only frames designed with a force modification factor of 1.5 are considered. Analytical models of the buildings are developed, which consider the nonlinear seismic behaviour of the concentrically braced frame, the shear strength of the roof diaphragm, and the stiffness and strength contributions of the
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Krishna, T. G. N. C. Vamsi, V. Amani, P. S. Sunil Kumar*, CH Naveen Kumar, and M. Srinivas. "Dynamic Seismic Analysis and Design of R.C.C Multi Purpose Building (G+15) By using E-Tabs." International Journal of Innovative Technology and Exploring Engineering 10, no. 10 (2021): 84–91. http://dx.doi.org/10.35940/ijitee.j9418.08101021.

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An earthquake is a sudden, rapid shaking of the earth caused by the breaking and shifting of rock beneath the earth’s surface. Earthquakes are among the most powerful events on earth, and their results can be terrifying. In0general for0design of tall0buildings both0wind as well0as earthquake0loads need0to be0considered. Governing0criteria for0carrying out0dynamic analyses0for earthquake0loads are different0from wind0loads. However many tall buildings are not so resistant in lateral loads due to earthquake. Reinforced concrete multi-storied buildings in India were for the first time subjected t
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Polat, H. I. "Analysis of a Frame-Shear Wall Concrete Structure by Using Base Isolation and Evaluation of Structure-Soil Interaction." Engineering, Technology & Applied Science Research 7, no. 6 (2017): 2282–87. http://dx.doi.org/10.48084/etasr.1611.

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A base isolation system is a type of earthquake-resistant structure design approach based on the principle of reducing a structure’s earthquake response rather than increasing the structure’s earthquake resistance capacity. Seismic base isolated structures have the ability to make large displacements relative to the level of insulation elements. This means that a large structure performs very small displacements between floors during an earthquake and exhibits a rigid body behavior. At this point, the earthquake forces acting on the structure decrease along with the floors. In this article a s
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Bedon, Amadio, and Noé. "Safety Issues in the Seismic Design of Secondary Frameless Glass Structures." Safety 5, no. 4 (2019): 80. http://dx.doi.org/10.3390/safety5040080.

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Glass is largely used in buildings, in the form of an innovative and versatile material. Both for novel and existing constructions, secondary glass systems are frequently realized to interact with primary components of different materials. In most cases, the structural challenge deriving from the intrinsic brittleness and vulnerability of glass is efficiently controlled via laminated (LG) multi-layer sections. However, further potential risks for people should be properly minimized, like for example, in the presence of extreme loads. This is the case of seismic regions, where dedicated calcula
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Chou, Chung Che, Ying Chuan Chen, Ping Ting Chung, Dinh Hai Pham, and Jia Hau Liu. "Low-Damage Earthquake-Resisting Systems Using Sandwiched Buckling-Restrained Braces and Dual-Core Self-Centering Braces." Applied Mechanics and Materials 353-356 (August 2013): 1946–58. http://dx.doi.org/10.4028/www.scientific.net/amm.353-356.1946.

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This paper presents a sandwiched buckling-restrained brace (BRB) and a dual-core self-centering brace (SCB) for seismic resistance. The sandwiched BRB has two components: (1) a steel core plate that carries axial forces and (2) two restraining members that sandwich the core plate with A490 bolts. The proposed BRB can be disassembled easily in the field, which not only means that the core plate can be replaced independently of the restraining members but also provides an opportunity for inspection of the core after a large earthquake. Cyclic tests of five sandwiched BRBs and five BRB frames wer
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Parvin Darabad, Yaser, Alireza Hassanpour Yasaghi, Beniamin Khodaei, and Reza Zarei. "Distribution of Seismic Damage in Steel Buildings Component Equipped by Viscoelastic Dampers against Far-Field Earthquake." Shock and Vibration 2021 (August 3, 2021): 1–13. http://dx.doi.org/10.1155/2021/8291173.

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Damage to structures with the concept of inelastic behavior and consequently hysteresis energy is very close. Therefore, it can be said that hysteresis energy at these levels can be a significant criterion for designing or controlling the structure. In this research, the first three steel frames of 4, 8, and 12 floors with the medium bending frame system have been designed with the statically equivalent method according to valid international regulations; then, all frames have been subjected to nonlinear dynamic analysis by seven accelerometers. The purpose of this study is to investigate the
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Hashemi Rezvani, Farshad, Behrouz Behnam, Hamid Reza Ronagh, and M. Shahria Alam. "Failure progression resistance of a generic steel moment-resisting frame under beam-removal scenarios." International Journal of Structural Integrity 8, no. 3 (2017): 308–25. http://dx.doi.org/10.1108/ijsi-02-2016-0008.

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Purpose The purpose of this paper is to determine the failure progression resistance of the steel moment-resisting frames subjected to various beam-removal scenarios after application of the design earthquake pertinent to the structure by investigating a generic eight-story building. Design/methodology/approach The structure is first pushed to arrive at a target roof displacement corresponding to life safety level of performance. To simulate the post-earthquake beam-removal scenario, one of the beam elements is suddenly removed from the structure at a number of different positions. The structu
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Vandana, R. K., and K. R. Bindhu. "Influence of geometric and material characteristics on the behavior of reinforced concrete beam-column connections." Canadian Journal of Civil Engineering 44, no. 5 (2017): 377–86. http://dx.doi.org/10.1139/cjce-2016-0247.

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The design of reinforced concrete moment-resisting frames and hence beam-column connections is of great importance in earthquake prone areas. Beam-column joints, which should be sufficiently strong to resist and sustain lateral loads, are designed on the basis of the strong-column weak-beam concept so that they undergo ductile failure. The present study describes the cyclic loading performance of six interior beam-column connection specimens designed to be seismic-resistant with varying aspect ratios, concrete compressive strengths, and beam bar yield strengths. Results indicate that joint duc
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Stiemer, S. F., and B. B. Barwig. "Seismic base isolation for steel structures." Canadian Journal of Civil Engineering 12, no. 1 (1985): 73–81. http://dx.doi.org/10.1139/l85-008.

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Base isolation is a strategy for a design of buildings in areas where seismic loads govern. It enables the reduction of earthquake excitation to an acceptable level, without an increase of structural acceleration. This paper presents the results of the experimental investigations of various schemes of first-storey designs for steel buildings with base isolation.A scaled-down steel frame building was used for the shaking table tests, which were conducted in the Earthquake Simulator Laboratory of the University of British Columbia. The base-storey design was altered while the dynamic response of
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Bai, Jiulin, Shuangshuang Jin, and Jinping Ou. "An efficient method for optimizing the seismic resistance of reinforced concrete frame structures." Advances in Structural Engineering 23, no. 4 (2019): 670–86. http://dx.doi.org/10.1177/1369433219878856.

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A practical and efficient optimization procedure for designing reinforced concrete frame structures with improved resistance to seismic loading was developed. The design methodology used the optimality criteria method in an iterative analysis-and-redesign scheme. A damage ratio–based procedure was proposed by employing the inelastic component rotations from nonlinear dynamic analysis to strengthen the severely damaged components in each iteration. The optimization approach is intuitive, simple, and easy to apply, since only analysis tools are required. The approach was applied to optimize the
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Emami, Ali R., and Amir M. Halabian. "Damage Index Distributions in RC Dual Lateral Load-Resistant Multi-Story Buildings Considering SSI Effects Under Bidirectional Earthquakes." Journal of Earthquake and Tsunami 12, no. 01 (2018): 1850004. http://dx.doi.org/10.1142/s1793431118500045.

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Inelastic seismic responses of flexibly supported reinforced concrete (RC) moment-resisting frames representing short-to-tall structures stiffened with ductile RC structural walls were evaluated considering both far-field and near-field ground motions. A dual shear wall-frame resisting system with symmetric reference plan was created by adding shear walls into excitation direction of the three-dimensional frames developed by generic structure algorithm. The current study also aims to take into account soil–structure interaction effects in to damage assessment of multi-story RC buildings in ter
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Liu, Di. "Study on the Anti-Seismic Performance of New Swing Structure System Based on PUSHOVER." Applied Mechanics and Materials 580-583 (July 2014): 1653–57. http://dx.doi.org/10.4028/www.scientific.net/amm.580-583.1653.

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Swing structure is added to the current frame structure for forming the new swing structure system. In this paper, by taking the existing structure as an example, the anti-seismic performance of the new swing system is analyzed with pushover method and the current earthquake resistant design code, and influence of swing rigid frame with different stiffness ratios on the anti-seismic performance of the new structural system is discussed. According to the results, by setting swing rigid frame with different stiffness ratios, it can enhance the bearing capacity and ductility of the structural sys
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Sitorus, Deny Anarista, and Wiryanto Dewobroto. "STUDI PERBANDINGAN PERENCANAAN BANGUNAN BAJA SISTEM SPECIAL MOMENT FRAMES DAN SPECIAL PLATE SHEAR WALLS." Jurnal Muara Sains, Teknologi, Kedokteran dan Ilmu Kesehatan 3, no. 1 (2019): 57. http://dx.doi.org/10.24912/jmstkik.v3i1.2565.

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Indonesia merupakan wilayah rawan gempa, sehingga konstruksi bangunan memakai sistem penahan gaya seismik dianggap penting. Umumnya, struktur bangunan adalah beton bertulang, adapun baja penggunaan sistem special moment frames (SMF) lebih banyak dijumpai sebagai sistem penahan gaya seismik. Padahal menurut peraturan ASCE/SEI 7-10 terdapat pilihan sistem penahan gaya seismik untuk bangunan baja seperti special plate shear walls (SPSW), special truss moment frames (STMF) dan sistem khususnya lainnya. Studi ini akan memperlihatkan perbandingan perencanaan bangunan sistem SMF dan SPSW dalam mempel
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McNamara, Robert J. "Seismic Damage Control with Passive Energy Devices: A Case Study." Earthquake Spectra 11, no. 2 (1995): 217–32. http://dx.doi.org/10.1193/1.1585812.

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This paper presents a theoretical case study of the effectiveness of supplemental passive damping devices in reducing structural response during seismic excitation. A six story special moment resistant reinforced concrete frame is studied with and without the aid of supplemental dampers. Response predictions are presented for each case. Preliminary damper design requirements are presented for a new facility implementing the supplemental damping system to reduce seismic damage and improve the post earthquake operational capability of the facility.
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Tran, Quang Huy, Jungwon Huh, Van Bac Nguyen, Achintya Haldar, Choonghyun Kang, and Kyeong Min Hwang. "Comparative Study of Nonlinear Static and Time-History Analyses of Typical Korean STS Container Cranes." Advances in Civil Engineering 2018 (August 16, 2018): 1–13. http://dx.doi.org/10.1155/2018/2176894.

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Ship-to-shore (STS) container gantry cranes, used at terminals for loading and unloading containers from a ship, are an important part of harbor structures. The size and weight of modern STS container cranes are increasing to satisfy the demand for bigger ships. This is expected to result in more lateral load when excited by seismic motions. The existing Korean STS container cranes did not behave properly during several recent moderate earthquakes in South Korea. Typical Korean STS container cranes must be checked for the earthquake-resistant capacity. In this research, two nonlinear static an
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Shiah, Guan Chyun, and Chia Lun Liu. "A Case Study of Earthquake Resistant Retrofit Design with Economical Braced Steel Frame System for a Primary School." Applied Mechanics and Materials 157-158 (February 2012): 1083–86. http://dx.doi.org/10.4028/www.scientific.net/amm.157-158.1083.

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This paper makes a case study of an elementary school in Feng-shan District, Kaohsiung City. According to “The handbook of seismic resistant evaluation standard for school buildings” issued by National Center for Research on Earthquake Engineering (NCREE) in 2009, this study analyzes elementary school building adopting braced steel frame retrofit system, conducts seismic evaluation, as well as compares its seismic performance with shear-wall retrofit structure and RC strengthening of columns . If space permits, braced steel frame retrofit system can be applied into school building retrofit sch
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Putra, Zulfazly, and Johannes Tarigan. "Performance Analysis of Steel Portal Structures with Braces Designed Based on Allowable Interstory Drift Limits." Simetrikal: Journal of Engineering and Technology 1, no. 2 (2019): 87–102. http://dx.doi.org/10.32734/jet.v1i2.979.

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Abstract. The earthquake resistant steel frame structure is designed to be able to withstand large inelastic deformations in the case of an earthquake. The applicable regulations still allow the use of elastic design methods in the form of pushover analysis and time history analysis evaluation as the basis for the design. The building under consideration consists of six floors with the function as an office building. The location of the building is in Banda Aceh with soft soil conditions. The structural analysis used the help of the Extended Three Dimensional Analysis of Building System Progra
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Aoyama, H. "Recent development in seismic design of reinforced concrete buildings in Japan." Bulletin of the New Zealand Society for Earthquake Engineering 24, no. 4 (1991): 333–40. http://dx.doi.org/10.5459/bnzsee.24.4.333-340.

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 Japan experienced a quick development of highrise reinforced concrete frame-type apartment building construction, about 30 stories high, in the last decade. Outline of this development is first introduced in terms of planning of buildings, materials, construction methods, earthquake resistant design and dynamic response analysis. This quick development was made possible by, among others, the available high strength concrete and steel. In an attempt to further promote development of new and advanced reinforced concrete building structures, a five-year national projec
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