جستجوی مقالات مرتبط با کلیدواژه « integral abutment » در نشریات گروه « عمران »
تکرار جستجوی کلیدواژه «integral abutment» در نشریات گروه «فنی و مهندسی»-
حذف مفاصل انبساطی و بالشتک ها در محل اتصال عرشه و کوله ی پل، به منزله ی یک مزیت قابل توجه از دو منظر اقتصادی و اجرایی، ساخت پل های یکسره را بسیار متداول کرده است. در این نوشتار، برای تعیین رانش خاک وارد بر کوله ی پل، از مدل سازی عددی با نرم افزار F L A C استفاده شده است. رانش خاک پشت کوله ی پل های یکسره، تحت سربار سیکلی ترافیک، در تراکم های مختلف به دست آمده و با رانش وارد برکوله ی پل های متداول)پل های با بالشتک های ارتجاعی در محل اتصال عرشه به کوله، که در این نوشتار پل های مجزا نامیده شده اند(مقایسه شده است. نتایج تحلیل عددی با نتایج یک تحلیل آزمایشگاهی مقایسه و اعتبارسنجی شده است. بررسی اثر میزان تراکم خاک در رانش سیکلی، مبین تفاوت قابل ملاحظه در توزیع و مقدار رانش بین پل های یکسره و مجزاست.
کلید واژگان: کوله ی یکسره, کوله ی مجزا, رانش خاک, سربار سیکلی, مدل عددی, پل های یکسره, تراکم}Integral bridges are gaining increasing popularity because of economics and their fast construction process, associated with the omission of bearing supports and expansion joints. In the present study, two objectives are followed: First, investigation of cyclic earth pressure behind integral bridge abutments being compared with that induced behind the abutment of traditional bridges (with isolated deck and abutment, which are called separated bridges in this study). Cyclic traffic load is used as the surcharge in the analysis. Second, investigation is undertaken of changes in the distribution and total thrust of earth pressure, due to different soil densities. Three numerical models are developed using the FLAC package. The first model is a retaining wall. The characteristics of this model are the same as a physical model made in the soil laboratory to study the earth pressure on retaining walls under cyclic surcharges. The first model is used to compare the results of numerical and experimental modeling and in validating the process of the numerical model. The second and third models are models of integral and separated bridges. The induced earth pressure is evaluated on the abutment of both bridges, under static and cyclic conditions of traffic surcharge. Pressure distribution behind the wall, as well as the point of application of the total thrust, was determined and compared between two bridges. The results have shown significant changes in both the quantity and distribution of earth pressure behind the abutment, in the case of integral bridges. In addition, the effect of soil density on cyclic earth pressure is investigated and compared between the two bridges. Three different states of sand, including loose, medium and dense, are used for modeling the granular backfill behind the abutment. Results of earth pressure behind the separated abutment show a similar trend to retaining walls, which experience increasing pressure due to increasing density. Unlike retaining walls and separated abutments, the integral bridge experiences less lateral pressure due to increasing density. More details of the findings and their causes will be discussed in the next sections.
Keywords: Integral Abutment, Isolated Abutment, Earth Pressure, Cyclic Surcharge, Numerical Model, Integral Bridges, Compaction} -
Earth Pressure behind an Integral Bridge Abutment and Comparison with that behind a Conventional Bridge Abutment under Traffic LoadsIntegral bridges are gaining increased popularity because of both economic and fast construction associated with the omission of bearing supports and expansion joints. In the present study the cyclic earth pressure behind integral bridge abutments under traffic surcharges are investigated and compared with that induced behind the abutment of conventional bridges (with isolated deck and abutment) under the same surcharges. A numerical modeling has been developed to evaluate the dynamic earth pressure using the FLAC package. The model was calibrated by direct measurement of earth pressure behind a physical model developed in soil mechanics laboratory to study the behavior of retaining walls.The induced earth pressures under static and cyclic conditions are evaluated and the pressure distribution behind the wall as well as the point of application of the total thrust was determined. The results have shown significant changes happen in both quantity and distribution of earth pressure behind the abutment when using integral bridges. The details of findings and their causes will be discussed in the next sections.Keywords: Integral abutment, Isolated abutment, Earth pressure, Cyclic surcharge, Numerical model, Integral bridge}
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