مطالعه آزمایشگاهی تاثیر سطوح مختلف پیش‌تنیدگی پیچ‌ها در عملکرد اتصالات پیچی ورق انتهایی تحت اثر بارگذاری چرخه‌ای

نوع مقاله : پژوهشی اصیل (کامل)

نویسندگان
حامد نوفرستی 1
محسن گرامی 2
1 گروه آموزشی عمران - زلزله، دانشکده مهندسی عمران، دانشگاه سمنان
2 استاد گروه آموزشی عمران زلزله، دانشکده مهندسی عمران، دانشگاه سمنان
10.22034/22.6.179
چکیده
اتصالات پیچی ورق انتهایی یکی از انواع اتصالاتی است که با رعایت ضوابطی از جمله ایجاد پیش­تنیدگی کافی بر اساس آیین­نامه سازه­های فولادی، به عنوان اتصالات از پیش­تایید شده در قاب­های خمشی فولادی قابل استفاده هستند. در این تحقیق، با استفاده از سه اتصال پیچی ورق انتهایی، اثرات مقادیر مختلف پیش­تنیدگی در پیچ­ها به صورت آزمایشگاهی تحت پروتکل بارگذاری چرخه­ای SAC مورد مطالعه قرار گرفته است. میزان پیش­تنش پیچ با ضریب α تعریف شده است. نمونه­ اول که پیچ­ها صرفا سفت شده­اند و پیش­تنیدگی ندارند، بست اولیه نامیده می­شود. نمونه دوم و سوم که پیش­تنیدگی در حد آیین­نامه و فراتر از آن تا حد نهایی تنش­ پیچ ایجاد می­شود، به ترتیب بست ثانویه و بست ثانویه کامل نامیده می­شود. پارامترهایی از قبیل ظرفیت خمشی، انرژی جذب شده، سختی اولیه، شکل پذیری و تغییرات کرنش در پیچ­های اتصال برای پیش­تنیدگی­های مختلف پیچ­ها ارزیابی شده است. نتایج نشان می­دهد افزایش ظرفیت خمشی و استهلاک انرژی در بست اولیه نسبت به بست ثانویه به ترتیب به میزان 27 و 23 درصد می­باشد، در حالیکه در بست ثانویه کامل نسبت به بست ثانویه به ترتیب 11 و 9 درصد افزایش یافته است. آغاز تغییر شکل­های فرا ارتجاعی به علت افزایش پیش­تنیدگی در دوران­های کوچک­تر پدیدار شده و محدوده تغییر شکل­های غیر الاستیک و به دنبال آن، شکل­پذیری اتصال افزایش می­یابد. مقایسه نمونه­ها حاکی از این است که اتصال در حالت بست ثانویه می­تواند به عنوان اتصال قاب خمشی ویژه مورد استفاده قرار گیرد، در حالی که افزایش پیش­تنیدگی بیش از حد آیین­نامه علی­رغم بهبود عملکرد چرخه­ای اتصال، مورد نیاز نمی­باشد.

کلیدواژه‌ها

موضوعات

عنوان مقاله English

The Effect of Bolt Pre-tension Levels on Behavior of Bolted Unstiffened End Plate Beam-to-Column Connections under Cyclic Testing

نویسندگان English

Hamed Noferesti 1
Mohsen Gerami 2
1 Department of Earthquake Engineering, Faculty of Civil Engineering, Semnan University, Iran
2 Department of Earthquake Engineering, Faculty of Civil Engineering, Semnan University, Iran
چکیده English

During the construction of steel structures, the executive groups often fabricate some stories and tighten the connection bolts, defined as the snug-tightened bolt in this research. The lower stories, in which the connection bolts are snug-tightened, will be pre-tensioned at least to the level of preloading based on design codes, called pre-tensioned bolts, in this paper. The connections will be complete, while some upper stories will have snug-tightened bolts. As a result, the stiffness of the bolted connections varies throughout construction, and the structural characteristics change with time. So it is necessary to investigate the seismic behavior of bolted extended end-plate moment connections in both snug-tightened and pre-tensioned bolts while constructing high-rise structures. Bolted unstiffened end plate moment connections are one of the most usable connections used as prequalified connections in special steel moment frames. According to the AISC design code, this connection can be considered one of the most important parts of moment-resisting frames with enough bolt pre-tension levels. In this paper, using three full-scale bolted unstiffened end plate moment connections designed according to AISC, the effects of bolt pre-tension levels have been examined experimentally under SAC cyclic loading protocol. Bolt pre-tension level has been defined as α coefficient to show the pre-tensioning level in three specimens. The bolts of the first specimen are not pre-tensioned, called snug-tightened bolts, and is reference connection. The bolt pre-tension levels of the second and third specimens were created in accordance with AISC and Iranian National design code and more to Fu of bolts, called pre-tensioned and fully pre-tensioned, respectively. The bolts' moment capacity, total energy absorption, initial rotational stiffness, ductility of connection, and stress and strain variation are investigated. According to the results, an increase in bolt pre-tension level would significantly improve the cyclic behavior of connections. Further, an increase in bolt pre-tension led to the initiation of the inelastic deformation from a minor rotation, and the ductility of the connection improved. The results show that the increase in moment capacity and energy dissipation in the pre-tensioned compared to snug-tightened is 27 and 23%, respectively. However, In comparison with the pre-tensioned, the fully pre-tensioned specimen has increased by 11 and 9%, respectively. As a result, the connection with bolt pre-tension level, under design regulations in comparison with the reference connection, can be considered a connection of a special moment resisting frames. So bolt pre-tension level higher than the value mentioned in the design code is better but not needed.

کلیدواژه‌ها English

Pretension
bolted connections
Cyclic loading
laboratory study
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مهندسی عمران مدرس
دوره 22، شماره 6
آذر و دی 1401
صفحه 179-193