بررسی عملکرد لرزه ای قاب مختلط فولادی کوتاه مرتبه با چیدمان های متفاوت اتصالات نیمه صلب

سیستم قاب مختلط یک سیستم سازه ای جدید مبتنی بر معرفی مکانیزم های جذب انرژی در قاب های سازه ای می باشد. در این نوع قاب ها برای بهبود عملکرد لرزه ای سازه، تعدادی از اتصالات صلب با اتصالات نیمه صلب شکل پذیر جایگزین می شوند. این مفهوم در نگاه اول به ایده قاب های مهاربندی واگرا شباهت دارد. در این تحقیق یک اتصال نیمه صلب شکل پذیر به عنوان اتصال نیمه صلب استفاده شده در قاب های مختلط انتخاب گردیده و چیدمان های مختلفی از آن در قاب 3 طبقه sac در نظرگرفته می شود. تمامی قاب ها به همراه قاب صلب اصلی تحت تحلیل های استاتیکی غیرخطی، تحلیل جابه جایی چرخه ای و تحلیل دینامیکی غیرخطی تحت 40 زلزله قرار می گیرند و عملکرد آنها به لحاظ شبه سنجه های حداکثر برش پایه نرمالایز شده، ظرفیت جذب انرژی و حداکثر تغییرمکان بین طبقه ای مقایسه می شود. در انتها با بررسی این تفاوت ها و با توجه به نیازهای طراحی بهترین و بهینه ترین چیدمان انتخاب می شود.

Seismic evaluation of Low Rise Hybrid steel frames with different patterns of semi-rigid connection

The 1994 Northridge earthquake motivated the researchers to overview the conventional design philosophies. At that point, one of the safest lateral load resisting systems was the fully restrained welded steel moment frame and it had been the dominant design choice in the seismic regions. The confidence in the fully restrained frames has been decreased by brittle failures of welded connections. Thus, the researchers introduced the new seismic structural systems; braced frames and hybrid frame.Hybrid steel frame is a new lateral resistant steel moment frame that is designed based on introducing the new energy dissipating mechanism. In order to enhance frame rsquo;s seismic performance, selected rigid connections are replaced with the ductile energy dissipating semirigid connections. This concept at the first glance is similar to the eccentrically braced frame. In the eccentrically braced frames, structural fuses are isolated links distributed throughout the frame, while in the hybrid frames fuses are semirigid connections placed at the selected locations with particular patterns. The seismic performance of hybrid frame is in such a way that story drift results in the rotation of the semirigid connections. Thus, for a properly designed connection that behaves in a ductile manner, the rotation is absorbed by angle or plate yielding without bolt or weld fracture. It would lead to excessive end plate or angle distortion at ultimate rotation that can be retrofitted after earthquake.In this research, the ductile semirigid connection is used in hybrid frames. Finite element modelling of the hybrid frame is conducted in OpenSees computer program. The semi rigid connections are implemented in OpenSees by nonlinear plastic rotation ends. The nonlinear hinges are modelled by using Ibarra Krawinkler deterioration model. The panel zone is also modelled by Krawinkler model proposed in the FEMA 355C. Then, several different patterns and locations of semirigid replacements within 3 story benchmark SAC frame are selected. All the frames are subjected to nonlinear static analysis as well as cyclic displacement analysis. For the assessment of the frames subjected to seismic excitations, nonlinear dynamic history analyses are conducted subjected to 40 Los Angeles records. The finite element numerical model of the SAC frame is also verified by comparing the results with the technical literature. Normalized base shear, energy dissipation capacity, and maximum story drift angle under 40 Los Angeles records are obtained for each frame. Finally, based on the mentioned parameters and design criteria the frame with desirable performance is selected.In general, hybrid frames have less base shear, less energy absorption, and more drift compared to frames with rigid joints (SAC frames). The lower energy absorption of these frames is due to the fact that in beams that are connected to the column in a rigid manner, the plastic joint of the beam is not activated and the semirigid connection is responsible for energy absorption. The geometric characteristics and cyclic behavior of semirigid joints are such that they absorb less energy than plastic beam joints. The data obtained from different analyzes on hybrid frames are slightly different and this shows that the effect of semirigid joints in shortterm frames is not significant.