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تالارهای گفتگو

  • بخش طراحی سازه های ساختمانی و غیرساختمانی
    • مطالب مرتبط با بارگذاری سازه ها
    • مطالب مرتبط با طراحی سقف
    • مطالب مرتبط با طراحی پی
    • مطالب ویژه در طرح اتصالات در سازه های فولادی
    • مطالب ویژه در طرح سازه های فولادی
    • مطالب ویژه در طرح سازه های بتنی
    • مطالب ویژه در طرح سوله ها و سالن های صنعتی
    • مطالب ویژه در طراحی پلها
    • مطالب ویژه در طراحی سازه های بنایی
    • مطالب ویژه در طرح سازه های آبی
    • مطالب ویژه در طرح سازه های ترکیبی فولادی-بتنی
    • مباحث ویژه در طراحی سازه های غیرساختمانی
    • مباحث ویژه در تحلیل غیرخطی سازه ها
    • طرح مقاومسازی سازه ها
    • طراحی معماری
    • طراحی راه، راه آهن و سازه های مرتبط
    • مسایل متفرقه در طراحی سازه ها
  • مباحث اجرایی
    • از شروع تا پایان پی سازی
    • اجرای اسکلت فلزی
    • اجرای اسکلت بتنی
    • اجرای انواع سیستم های سقف
    • اجرای دیوارهای غیرسازه ای
    • اجرای نازک کاری
    • اجرای تاسیسات برقی و مکانیکی
    • نقشه برداری
    • اجرای سازه های بنایی
    • اجرای سوله ها و سالن های صنعتی
    • اجرای سازه های پل
    • اجرای مقاومسازی سازه ها
    • اجرای سازه های آبی و دریایی
    • اجرای راه و راه آهن
    • ایمنی در حین اجرای کار
    • متره و برآورد ، صورت وضعیت ، قراردادها
    • مدیریت اجرایی پروژه ها
    • مسائل متفرقه اجرایی
  • مباحث بنیادی
    • مکانیک جامدات
    • تکنولوژی بتن و مصالح ساختمانی
    • مکانیک سیالات، هیدرولیک و هیدرولوژی
    • دینامیک و اصول مهندسی زلزله
    • مکانیک خاک و مهندسی پی
    • ریاضیات
    • زبانهای خارجه
  • مباحث تخصصی
    • مباحث تخصصی مهندسی سازه
    • مباحث تخصصی مهندسی زلزله
    • مباحث تخصصی مهندسی ژئوتکنیک
    • مباحث تخصصی مهندسی سازه های هیدرولیکی
    • مباحث تخصصی مهندسی سازه های دریایی
    • مباحث تخصصی مهندسی آب
    • مباحث تخصصی مهندسی مدیریت پروژه و ساخت
    • مباحث تخصصی مهندسی ترافیک
    • مباحث تخصصی مهندسی محیط زیست
    • مباحث تخصصی مهندسی نقشه برداری
    • مباحث تخصصی مهندسی معماری و شهرسازی
    • Building Information Modelling (BIM)
  • آیین نامه ها
    • آیین نامه های طراحی و اجرای سازه های فلزی
    • آیین نامه های طراحی و اجرای بتن و سازه های بتنی
    • آیین نامه های بارگذاری و مقاومسازی لرزه ای
    • آیین نامه های مرتبط با راه، راه آهن ، ترافیک
    • آیین نامه های مرتبط با مهندسی ژئوتکنیک
    • آیین نامه های تخصصی مهندسی آب، محیط زیست، سازه های هیدرولیکی و دریایی
    • بقیه آیین نامه های داخلی
  • نرم افزارها
    • نرم افزارهای عمومی مهندسی عمران
    • نرم افزارهای تخصصی سازه و زلزله
    • نرم افزارهای کنترل پروژه
    • نرم افزارهای اجزا محدود
    • نرم افزارهای تخصصی خاک و پی
    • نرم افزارهای تخصصی آب ، محیط زیست و سازه های آبی
    • نرم افزارهای تخصصی راه و ترافیک
    • نرم افزارهای نقشه کشی و گروه اتودسک (اتوکد، آرشیکد و ...)
    • نرم افزارهای تخصصی رشته معماری
    • نرم افزارهای تخصصی رشته نقشه برداری
    • نرم افزارهای عمومی
  • گفتگوهای صنفی
    • دوره های مختلف تحصیلی و آموزشی
    • بازار کار
    • نظام مهندسی
    • کنفرانسها، همایشها، سمینارها
    • اخبار عمرانی
  • معرفی و دانلود فایلهای مفید
    • دانلود ایبوکهای فارسی
    • دانلود مقالات فارسی
    • دانلود مقالات انگلیسی
    • دانلود پروژه های دانشجویی و غیردانشجویی
    • نقشه های اتوکد
    • دانلود عکس ، فیلم ، فلش ، پاورپوینت ، پادکست و ...
    • دانلود نمونه سوالات امتحانی
    • دانلودهای متفرقه
  • متفرقه
    • معرفی کتاب
    • لینکستان
    • مطالب عمرانی مفید دیگر
    • آگهی های رایگان
    • گفتگوی آزاد
    • مسایل مرتبط با سایت و انجمن ایران سازه
    • متفرقه

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  1. The Complete ETABS Professional- For Structural Engineers (based on IS code) 2019 Udemy دوره 20 ساعته آموزش ایتبز، سازه های صنعتی، سازه بلند بر اساس آیین نامه های هند Description 1. For Moderate/Expert Users There are three types of Analysis covered in this Tutorial Series. 1. Linear Static Analysis. 2. Non-Linear Static Analysis (Pushover Analysis) 3. Linear Dynamic Analysis (Response Spectrum Analysis) The design codes covered are American and Indian Standards with Introduction to European Standards. Case study 1 - Design of Pre-Engineered Building Steel Structure as per Indian Standards. Steel Structures especially PEB are somewhat tricky to model, analyze and design. Majority of the people are comfortable in RCC Design, but very few are expert in Steel Design. After covering this section , you will be able to calculate wind and seismic loads as per the Indian Standards , Model the Steel Structures i.e. Portal , Plan Bracing and Elevation Bracing, Analyze , Review the Modal Shapes and Design the Structure. Instructor will also teach you how to do the value engineering and optimize the Steel Structures. At the end of this lecture series , you will be comfortable with Steel Structures. Case study 2- Linear Dynamic Analysis and Design of Bill Board Steel Structure as per Indian Standards. Bill Boards are supported on the very large Cantilever Steel Structures. You will learn how to plan the basic Structural System, which can resist the high wind and high seismic loads. You will learn how to do the dynamic analysis of the Steel Structure. Modal Analysis is a very important part. You will also learn how to improve the Mode Shapes , how to check the Fundamental Time Period. At the end , you will be able to understand how to design the Steel Structure. Value Engineering and Optimization is also taught in the end. Instability also become an integral part of ETABS modellers. You will learn how to remove the Instabilities. Case study 3- Linear Dynamic Analysis and Design of Industrial Heavy Steel Structure as per American Standards Industrial Heavy Structures looks very difficult and confusing in the beginning. They may be a nightmare in the beginning for Novice Engineers, but in this lecture series , you will learn how to do the basic Steel Structure Planning, How to Plan the Plan and Elevation Bracing. You will learn what are the basic Mode Shapes for Industrial Heavy Structures. You shall also learn how you can do the Dynamic Analysis of the Structures. In the end , you will learn how to design the Steel Structures as per AISC 360. A separate lecture is given at the end for Connection and Base Plate Design. Case study 4- Linear Dynamic Analysis and Design of Steel Space Truss Structures for American Standards Space Truss Structures are very unique in the way how force travel in them. A big space truss is first taught how to model , then analyze and in the end design as per the American Standards. You will learn more about the mode shapes of the huge structures. In the end , you will be comfortable with how the Steel Space Truss Structures can be Designed. Case study 5- Non-Linear Static Analysis or Pushover Analysis of the Structures In the last decade , much has been written on the push over analysis. How the push over analysis is superior to Static Push over Analysis , but very few people actually know how to do the push over analysis. Even experts in the Structural Engineering Field Shy away from this topic. In this lecture series , you will learn how to make the push over curve and find the Performance Point. What it really means to push the Structure up to a certain displacement. How the Response Spectrum Curve needs to be aligned with the Pushover Curve to find the Performance Point. In the end , you will be able to access the Performance of the Structure. Axial , Shear and Moment Hinges are explained with the help of slides. Case study 6- Linear Dynamic Analysis of 23 Story High Rise Structure as per Indian Standards In this lecture series , you will learn how to read the Architecture Drawings , How to Do the basic planning of the Structural Elements. The important widely asked questions that will get answered in this lecture series are 1. What is the difference between flexible and rigid diaphragms and how to assign the diaphragms to the RCC Slab ? 2. How to do P-Delta Analysis 3. How to do the Scaling of the Response Spectrum values to the Static Earthquake Analysis Values. 4. How to Read the ETABS Editor File ? 5. How to Design the Shear Wall ? 6. How to Export the reactions to SAFE and Design the Raft in SAFE ? These six questions are very important to understand for any Structural Engineer for designing any Structure in ETABS. 2. For Intermediate/Novice Users, ETABS Basics Section is provided This Section is the very basic steps in Learning of ETABS software. Moderate or Expert users may skip this part or may refer to this part as a refresher Introduction. You may also refer to this part , in case , if you face any problem while completing Case Studies. You will start with the Absolute Basics Section- Instructor proceeds step by step through the process of drawing grids, defining stories, defining materials, defining section properties, drawing objects in the structural engineering models, defining loads, selecting load combinations with theoretical explanations and examples. You will learn the basics of Soil Structure Interaction and designing basic Raft Foundation. Completing this Part will make you clear about the difference between Thin shell, Thick shell and Membrane. You will also learn the Basics of Structural Dynamics. You will be familiar with the Mode Shapes, Mass Participation, Earthquake analysis, Time periods etc. You may understand that this is a section to refer in case , you are stuck with any case study. You need to understand that this is not an easy to do course. You may need to repeat the course content of over 20 Hours over and over again to understand the course content. This course is only intended for Serious Students. Much efforts has been done to provide the practical understanding of the Software , which is not available anywhere on the internet , hence costlier than other courses on this platform. منبع
  2. Evaluation of Design Parameters on PBD of RC Buildings with Masonry Infills. Bhushan M. Raisinghani ABSTRACT Masonry infills are provided in almost all residential buildings as enclosure. The building analysis and designs are carried out considering a representative empirical time period. The yield strength of URM infilled frames is much higher, and yield displacement is smaller for bare frames, providing higher ductility. The extent of damage to infill elements define the hazard level imposed and the corresponding risk associated with it. In this paper, the performance of RC building with infills is evaluated using pushover analysis for various seismic hazard levels and loading patterns as per ATC40 & FEMA356 in ETABS. A seven storey regular RC building is located in seismic zone-V (IS1893-0.36 g). The parameters of evaluation include time period formula, modelling technique of infill, masonry units used in practice, and location of openings in building. The code provisions for open ground storey buildings have been evaluated for performance assessment. Under 0.36 g hazard level, the building frame satisfied Life Safety performance objective under the three lateral loading patterns. It is found that AAC masonry blocks least affect the performance of frame elements and also the required failure mode for the structure. منبع @Civilbest_ارزیابی_لرزه_ای_ساختمان.pdf
  3. Comparison between non-linear dynamic and static seismic analysis of structures according to European and US provisions مقایسه تحلیل لرزه ای استاتیکی و دینامیکی غیر خطی بر مبنای آیین نامه اروپا و آمریکا Mehmed Causevic · Sasa Mitrovic Abstract Several procedures for non-linear static and dynamic analysis of structures have been developed in recent years. This paper discusses those procedures that have been implemented into the latest European and US seismic provisions: non-linear dynamic time-history analysis; N2 non-linear static method (Eurocode 8); non-linear static procedure NSP (FEMA 356) and improved capacity spectrum method CSM (FEMA 440). The presented methods differ in respect to accuracy, simplicity, transparency and clarity of theoretical background. Non-linear static procedures were developed with the aim of overcoming the insufficiency and limitations of linear methods, whilst at the same time maintaining a relatively simple application. All procedures incorporate performance-based concepts paying more attention to damage control. Application of the presented procedures is illustrated by means of an example of an eight-storey reinforced concrete frame building. The results obtained by non-linear dynamic time-history analysis and non-linear static procedures are compared. It is concluded that these non-linear static procedures are sustainable for application. Additionally, this paper discusses a recommendation in the Eurocode 8/1 that the capacity curve should be determined by pushover analysis for values of the control displacement ranging between zero and 150% of the target displacement. Maximum top displacement of the analyzed structure obtained by using dynamic method with real time-history records corresponds to 145% of the target displacement obtained using the non-linear static N2 procedure. Keywords Non-linear dynamic analysis · Non-linear static methods · Pushover analysis · N2, NSP and CSM methods منبع مقایسه_تحلیل_استاتیکی_و_دینامیکی.pdf
  4. پاورپوینت : راهنمای انجام تحلیل پوش آور در SAP2000 فایل پاورپوینت در 111 اسلاید به نقل از کانال فایلهای انجمن سازه های فولادی ایران دانلود از پیوست pushover.part2.rar pushover.part1.rar
  5. 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
  6. Evaluating the Conventional Pushover Procedures for Estimating the Seismic Performance of Steel Plate Shear Walls Original Article, D4 Behforooz B., Memarzadeh P. and Behnamfar F Journal. Civil Eng. Urban. 4(1): 19-27. 2014 ABSTRACT:The seismic performance demands of steel plate shear wall (SPSW) are estimated through the conventional pushover procedures. Reliability of the pushover analysis is verified through nonlinear time history analysis (NTHAs) on 9-, 6- and 3-story SPSW frames subjected to seven scaled earthquake records according to ASCE/SEI 7-05 provisions. Story drifts, displacements and story shears are the main parameters studied. A relatively accurate estimation is observed by pushover procedures compared to NTHAs. The accuracy of estimation shows an increase with respect to the height. Keywords:Steel plate shear wall; conventional pushover analysis; nonlinear time history analysis منبع: [Hidden Content] دانلود: [Hidden Content].,14-04-19-27.pdf J. Civil Eng. Urban.,14-04-19-27.pdf
  7. Evaluation of hysteretic behavior of eccentrically braced frames with zipper-strut upgrade Seyed Mehdi Zahrai a, Milad Pirdavari b,⁎, Hamid Momeni Farahani b a Center of Excellence for Management and Engineering of Civil Infrastructures, School of Civil Engineering, College of Engineering, The Univ. of Tehran, P.O. Box 11365/4563, Tehran, Iran b Ati-Naghsh Hamraz Consultants, Inc. Suite 8, No. 73, Jalale Ale Ahmad, P.O. Box 1446665718, Tehran, Iran a r t i c l e i n f o a b s t r a c t Article history: Received 28 August 2012 Accepted 28 December 2012 Available online xxxx Keywords: EBF Zipper strut Hysteretic behavior Pushover analysis Finite-element Cyclic loading This paper describes the seismic behavior of Eccentrically Braced Frames (EBF) upgraded using zipper-struts which connect the mid-point of shear links in all stories. The numerical modeling of the zipper-strut-equipped model is conducted using finite-element method software under cyclic load, with the goal of evaluating the behavior of shear links. The interaction of shear links and zipper-struts is also studied. Furthermore, the prototypes are subjected to nonlinear static (Pushover) analysis in two configurations; one with moment-resisting connections and one with pinned connections. Finally, the increase of ductility coefficient for the prototypes with zipper-strut is studied. The prototypes are also subjected to time-history analysis using scaled earthquake records, with the purpose of studying the energy parameters of the models. The unbalanced shear force is distributed among all stories due to the added continuity among shear links. This results in the extension of structural displacement capacity according to acceptance criteria. Moreover, a noticeable delay occurs until shear links experience enough rotation to meet Collapse Prevention acceptance criteria. By imposing acceleration on the structure and conducting time history analysis, it is observed that the zipper-strut-equipped system shows a stronger tendency to form shear links, leading to greater dissipation capacity in plastic zone Journal of Constructional Steel Research 83 (2013) 10–20 منبع: [Hidden Content] دانلود: [Hidden Content] media.pdf
  8. An Investigation on the Accuracy of Pushover Analysis for Estimating the Seismic Perfarmance of Steel Plate Shear Walls Subjected to the “TOHOKU Eearthquake” Babak Behforooz *1* , Parham Memarzadeh1†, Farhad BehnamFar2‡ 1. Department of Civil Engineering, Najafabad Branch, Islamic Azad University, Najafabad, Iran 2. Department of Civil Engineering, Isfahan University of Technology, Isfahan, Iran Abstract AISC-341 provides requirements for designing of SPSWs by means of a capacity-design method in which boundary elements are designed for forces corresponding to the fully yield strength of the web plate. This paper investigates the potentialities of the pushover analysis to estimate the seismic deformation demands of steel plate shear wall (SPSW). Reliability of the pushover analysis has been verified by conducting nonlinear dynamic analysis on 9,6 & 3 story frames subjected to “STRONG MOTION RECORDS FROM THE 2011 OFF THE PACIFIC COAST OF TOHOKU EARTHQUAKE”. The analysis utilizes a finite element method involving both material and geometric nonlinearities. It is shown that pushover analysis with predetermined lateral load pattern provides questionable estimates of interstory drift, lateral displacement and base shear. Key words: SPSW, TOHOKU EARTHQUAKE, pushover analysis, capacity-design method. [Hidden Content] writting_format_in_english_papers 2007.pdf

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