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THE INCREMENTAL DYNAMIC ANALYSIS AND ITS APPLICATION TO PERFORMANCE-BASED EARTHQUAKE ENGINEERING
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THE INCREMENTAL DYNAMIC ANALYSIS AND ITS APPLICATION TO PERFORMANCE-BASED EARTHQUAKE ENGINEERING Dimitrios Vamvatsikos1 and C. Allin Cornell2 1Graduate Student, Department of Civil and Environmental Engineering, Stanford University, CA 94305-4020 2Professor, Department of Civil and Environmental Engineering, Stanford University, CA 94305-4020 ABSTRACT Incremental Dynamic Analysis (IDA) is an emerging analysis method that offers thorough seismic demand and capacity prediction capability by using a series of nonlinear dynamic analyses under a multiply scaled suite of ground motion records. Realization of its opportunities requires several innovations, such as choosing suitable ground motion Intensity Measures (IMs) and representative Damage Measures (DMs). In addition, proper interpolation and summarization techniques for multiple records need to be employed, providing the means for estimating the probability distribution of the structural demand given the seismic intensity. Limit-states, such as the dynamic global system instability, can be naturally defined in the context of IDA, thus allowing annual rates of exceedance to be calculated. Finally, the data gathered through IDA can provide intuition for the behavior of structures and shed new light on the connection between the Static Pushover (SPO) and the dynamic response. To illustrate all the above concepts, a complete walkthrough of the methodology is presented by using a 9-storey steel moment-resisting frame with fracturing connections as an example to explain and clarify the application of the IDA to Performance-Based Earthquake Engineering (PBEE). Keywords: performance-based earthquake engineering, incremental dynamic analysis, demand, collapse capacity, limit-state, nonlinear dynamic analysis, static pushover به نقل از گروه تلگرام دستنامه زلزله دانلود از پیوست Incremental Dynamic Analysis.pdf-
- incremental dynamic analysis
- demand collapse capacity
- (و 3 مورد دیگر)
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Seismic Behavior of Direct Displacement-based Designed Eccentrically Braced Frames
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Seismic Behavior of Direct Displacement-based Designed Eccentrically Braced Frames A. Mohebkhah* , S. Farahani Department of Civil Engineering Faculty of Civil and Architectural Engineering, Malayer University, Malayer, Iran Direct Displacement-Based Design (DDBD) is a performance-based seismic design method that has been proposed and well developed over the past two decades to design RC frame structures, shear walls and bridges. In this method, an equivalent single-degree-of-freedom (SDOF) substitute structure is utilized to estimate seismic displacement demands of a multi-degree-of-freedom (MDOF) system. Although this method has been used to design the above mentioned structures, however, there is just one comprehensive DDBD method to design steel eccentrically braced frames (EBFs) in the literature. The purpose of this study is to investigate nonlinear seismic behavior of the DDB designed EBFs with short, intermediate and long link beams and estimate their seismic demands. To this end, twelve 3, 5, 9 and 12-story EBFs were designed using the proposed DDBD method. To simulate the nonlinear cyclic behavior of link beams, a macro-model proposed in the literature was adopted and validated with the available tests results. In order to describe material nonlinearity of the framing members in the macromodel, distributed plasticity fiber based model was used. After validating the FEM macro-modeling technique of link beams, seismic behavior of the 2D EBFs was investigated with nonlinear time-history analysis under a set of selected earthquake records using the structural analysis software OpenSees (ver. 2.4.0). The results showed that the DDB designed EBFs generally can reach their anticipated performance level. دانلود DDB Designed EBFs.pdf-
- DDBD
- Nonlinear Dynamic Analysis
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(و 3 مورد دیگر)
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EVALUATION OF DIRECT-DISPLACEMENT BASED SEISMIC DESIGN METHOD FOR EBFs
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EVALUATION OF DIRECT-DISPLACEMENT BASED SEISMIC DESIGN METHOD FOR EBFs Amin MOHEBKHAH Assistant Professor of Structural Eng., Dept. of Civil Eng., Malayer University, Malayer, Iran amoheb@malayeru.ac.ir Sina FARAHANI M.Sc. Student of Structural Engineering, Dept. of Civil Eng., Malayer University, Malayer, Iran sina_farahani459@yahoo.com, sina.farahani@stu.malayeru.ac.ir Keywords: Direct displacement-based design, Steel eccentrically braced frame, Seismic behavior, Nonlinear dynamic analysis, Performance level Recent research in the field of earthquake engineering has seen the development of number of different displacementbased seismic design (DBD) methods. Such methods aim to overcome limitations with the force-based design methods incorporated in current codes. The most developed DBD method currently available is the Direct DBD approach, described and investigated in a text by Priestley et al. (2007). While the guidelines in the DDBD code have been relatively well tasted for RC structures, further verification and development is required for steel frame systems. There is just one comprehensive study can be found on DDBD of eccentrically braced frames (EBFs) which has been published recently by Sullivan (2013). The study presented by Sullivan (2013), has been focused of DDBD of EBFs with short (shear) link beams. Therefore, the aim of present study is to evaluate the ability of DDBD method for designing EBFs with intermediate and long link beams. To this end, three five-storey EBFs with short, intermediate and long link beams designed using the DDBD method proposed by Sullivan (2013). Figure 1 shows the case study EBF structures selected for examination in this paper. دانلود منبع 00390-SD.pdf -
مجموعه فایلهای ارایه شده در سمينار سازه هاي تعمير پذير (پژوهشگاه زلزله)
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مجموعه فایلهای ارایه شده در سمينار سازه هاي تعمير پذير برگزار شده در پژوهشگاه بين المللي زلزله شناسي و مهندسي زلزله لینک دانلود به حجم 104 مگابایت به نقل از کانال تلگرام انجمن مهندسی زلزله ایران مجموعه شامل مطالب زیر است : مقالات : Seismic Behavior of Self-Centering Precast Segmental Bridge Bents Quasi-Static Cyclic Behavior of Controlled Rocking Steel Frames An innovative experimental method to upgrade performance of external weak RC joints using fused steel prop plus sheets Damage Investigation of Steel High Rise Structures Using Nonlinear Dynamic Analysis Soil failure can be used for seismic protection of structures Telescopic columns as a new base isolation system for vibration control of high-rise buildings PRESENTING A NEW APPROACH BASED ON INERTIA FORCES TO CONTROL THE VIBRATION OF STRUCTURES A kind of repairable steel buildings for seismic regions based on building‟s rocking motion and energy dissipation at base level Proposing a Yielding-Plate Energy Dissipating Connection for circumferential Circumferential Columns of Steel Rocking Buildings and Investigating its Proper Properties by Nonlinear Finite Element Analyses Base Isolation and Damage-Resistant Technologies for Improved Seismic Performance of Buildings A synopsis of sustainable structural systems with rocking, self-centering, and articulated energy dissipating fuses Moving to low-damage design CONTROLLED ROCKING OF STEEL-FRAMED BUILDINGS WITH REPLACEABLE ENERGY-DISSIPATING FUSES AN INNOVATIVE DESIGN FOR REPAIRABLE REGULAR STEEL BUILDINGS BY USING A 4-CELL CONFIGURATION STRUCTURE WITH ME INCLINED COLUMNS AT BASE LEVEL, EQUIPPED WITH DOUBLE-ADAS DEVICES, AND SECURITY CABLES AT CORNERS APPLYING “DELIBERATE DIRECTING OF DAMAGE” IDEA FOR CREATION OF REPAIRABLE STEEL BUILDINGS BY USING ROCKING TUBULAR FRAME STRUCTURAL SYSTEM AND YIELDING-PLATE DAMPERS AT FOUNDATION LEVEL Seismic Performance of an Innovative Rocking System by Using Columns Equipped with Friction Dampers at Base Level A MULTI-STUD ENERGY DISSIPATING DEVICE AS THE CENTRAL FUSE TO BE USED IN SHORT- TO MID-RISE REGULAR STEEL BUILDINGS WITH ROCKING MOTION بهبود عملکرد لرزه ای ساختمانها با ایجاد حرکت گهواره ای - یک مطالعۀ مروری LOW-DAMAGE BUILDING TECHNOLOGIES ( تکنولوژی های ساختمانی با خسارت محدود ) Seismic Low Damage Technologies for Bridges in New Zealand From Research to Practice TESTING A REPAIRABLE LATERAL RESISTING SYSTEM APPLIED TO BRACED STEEL FRAMES A synopsis of sustainable structural systems with rocking, self-centering, and articulated energy dissipating fuses بررسی تاثیر کابلهای پس کشیده بر رفتار سازه های فولادی دارای حرکت گهواره ای با کمک آنالیز پوش آور بررسي رفتار سازه های خودمحور دارای رفتار حرکت گهوارهای تحت زلزله های نزدیک گسل پاورپوینت : معرفی جاذب انرژی ورقی تسلیمی با مقطع متغیر به عنوان فیوز سازه ای در ساختمان ها LOW-DAMAGE BUILDING TECHNOLOGIES New Zealand فیلم: rock ling building system in Russia-
- سازه های تعمیرپذیر
- پژوهشگاه زلزله
- (و 7 مورد دیگر)
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NONLINEAR DYNAMIC ANALYSIS OF THIN STEEL PLATE SHEAR WALLS
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NONLINEAR DYNAMIC ANALYSIS OF THIN STEEL PLATE SHEAR WALLS S. SABOURI-GHOMI and T. M. ROBERTS School of Engineering, University of Wales College of Cardiff, Card8 CF2 IXH, U.K. (Received 21 February 1990) Abstract-A nonlinear analysis of the dynamic response of thin steel plate shear walls, with fixed beam to column connections, based on a finite difference solution of the governing differential equation of motion, is presented. The hysteretic characteristics of steel plate shear walls, incorporated in the analysis, include the influence of shear buckling and plastic yielding of the web plate and plastic yielding of the surrounding frame. The results presented validate the analysis for elastic response and demonstrate the effectiveness of the hysteretic characteristics in inhibiting resonance under periodic dynamic loading. sabourighomi1991.pdf-
- THIN STEEL PLATE SHEAR WALL
- STEEL PLATE SHEAR WALL
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(و 1 مورد دیگر)
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Investigation of the link beam length of a coupled steel plate shear wall
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Investigation of the link beam length of a coupled steel plate shear wall M. Gholhaki and M.B. Ghadaksaz Faculty of Civil Engineering, Semnan University, Semnan, P.O. Box 35195-363, Iran (Received January 19, 2015, Revised June 27, 2015, Accepted August 26, 2015) Abstract. Steel shear wall system has been used in recent years in tall buildings due to its appropriate behavior advantages such as stiffness, high strength, economic feasibility and high energy absorption capability. Coupled steel plate shear walls consist of two steel shear walls that are connected to each other by steel link beam at each floor level. In this article the frames of 3, 10, and 15 of (C-SPSW) floor with rigid connection were considered in three different lengths of 1.25, 2.5 and 3.75 meters and link beams with plastic section modulus of 100% to the panel beam at each floor level and analyzed using three pairs of accelerograms based on nonlinear dynamic analysis through ABAQUS software and then the performance of walls and link beams at base shear, drift, the period of structure, degree of coupling (DC) and dissipated energy evaluated. The results show that the (C-SPSW) system base shear increases with a decrease in the link beam length, and the drift, main period and dissipated energy of structure decreases. Also the link beam length has different effects on parameters of coupling degrees. Keywords: coupled steel plate shear wall; link beam; nonlinear dynamic analysis; plastic section modulus KJKHEW_2016_v20n1_107.pdf-
- coupled steel plate shear wal
- coupled steel shear wall
- (و 3 مورد دیگر)
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COMPARISON OF THE PROGRESSIVE COLLAPSE RESISTANCE OF SEISMICALLY DESIGNED STEEL SHEAR WALL FRAMES
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COMPARISON OF THE PROGRESSIVE COLLAPSE RESISTANCE OF SEISMICALLY DESIGNED STEEL SHEAR WALL FRAMES AND SPECIAL STEEL MOMENT FRAMES M. R. Sheidaii and S. Jalili Abstract In this study, the progressive collapse potential of seismically designed steel plate shear wall (SPSW) systems is investigated using the alternate path method, and their performances are compared with those of the conventional special moment frame (SMF) systems. Nonlinear static and dynamic analyses are conducted to follow the progressive collapse of the structures, and their ability of absorbing the destructive effects of member loss is investigated. The obtained results show that when a corner or a middle column in the first story of the SPSWs is removed, the rest of the structure is not able to provide an appropriate alternative path for redistributing the generated loads caused by member loss, and therefore the structure presents a high potential for progressive collapse. However, by changing the lateral load resisting system of these buildings with the SMFs, the progressive collapse resisting capacity of the buildings increases significantly. Keywords Progressive Collapse, Alternate Path Method, Nonlinear Static Analysis, Nonlinear Dynamic Analysis, Steel Plate Shear Wall چکیده در این مطالعه پتانسیل خرابی پیشرونده در قابهای فولادی مقاوم لرزهای مجهز به دیوار برشی فولادی (SPSW) با استفاده از روش مسیر جایگزین بررسی شده و عملکرد آنها در برابر خرابی پیشرونده با سیستمهای قاب خمشی ویژه رایج (SMF)مقایسه شده است. تحلیلهای غیرخطی استاتیکی و دینامیکی برای تعقیب وقوع خرابی پیشرونده در سازهها انجام شده و قابلیت جذب اثرات مخرب حذف عضو، بررسی شده است. نتایج بدست آمده نشان میدهد زمانی که یک ستون گوشه و یا یک ستون میانی واقع در طبقه اول از سیستم SPSW حذف میشود، سازه باقیمانده نمیتواند مسیر جایگزین مناسبی برای بازتوزیع بارهای ناشی از حذف عضو فراهم نماید و سازه پتانسیل بالایی را برای خرابی پیشرونده نشان میدهد. ولی با تغییر سیستم باربر جانبی سازه از SPSW به SMF، ظرفیت باربری سازه در برابر خرابی پیشرونده بطور چشمگیری افزایش مییابد. 28-6-7.pdf-
- Progressive Collapse
- Alternate Path Method
- (و 3 مورد دیگر)
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Exploring the Efficiency of Dampers for Repair and Strengthening of Existing Buildings
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Exploring the Efficiency of Dampers for Repair and Strengthening of Existing Buildings F. Barati; A. Esfandiari In this paper, seismic behavior of the existing buildings equipped by friction dampers is studied. Seismic performance of6-story, 9-story and 12-story steel buildings with damper and without damper were studied. The finite element modeling technique (SAP2000 Software) is used for analysis. Time History analyzing was done to achieve this purpose. For nonlinear dynamic analysis, the responses of the structures to three earthquake records (Tabas, Naghan, and artificial waveform) were obtained. A series of analyses were made to determine the optimum slip load of the friction dampers to achieve minimum response. Also, in order to evaluate the performance of the friction dampers in asymmetric structures, an asymmetric structure was utilized. The obtained results show significant improvement of seismic behavior and efficiency of the friction damper for seismic retrofitting to these buildings. منبع دانلود JSEG321354307400.pdf-
- existing building
- Seismic retrofitting
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(و 3 مورد دیگر)
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