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علوم و مهندسی زلزله، جلد ۵، شماره ۴، صفحات ۵۵-۶۹
عنوان فارسی رفتار روانگرایی خاک‌های ماسه‌ای‌ مخلوط با شن بر مبنای نتایج آزمایش‌های سه‌محوری تناوبی
چکیده فارسی مقاله در این مقاله به بررسی مقاومت روانگرایی ماسه‌ مخلوط با شن با استفاده از آزمایش‌های سه‌محوری تناوبی پرداخته شده است. بدین‌منظور اثر افزایش درصد شن و تراکم نسبی (Dr)، بر مقاومت روانگرایی و سرعت موج برشی (Vs) مخلوط و همبستگی بین آنها بررسی شده است. نتایج نشان می‌دهد که افزایش تراکم نسبی مخلوط (Dr) در یک درصد شن ثابت موجب افزایش Vs و مقاومت روانگرایی نمونه‌ها شده و در یک Dr ثابت نیز افزایش میزان شن تا 50 درصد موجب افزایش Vs می‌شود. درحالی‌که در یک Dr ثابت، با افزودن شن به ماسه تا 10 درصد، مقاومت روانگرایی افزایش و سپس با افزایش بیشتر میزان شن تا 50 درصد، مقاومت روانگرایی کاهش می­یابد. در ادامه افزایش بیشتر درصد شن تا 75 درصد، مجدداً منجر به افزایش مقاومت روانگرایی مخلوط شده است. در توجیه رفتار مشاهده شده نتیجه‌گیری شده است که به‌منظور مطالعه رفتار روانگرایی خاک‌های ماسه‌ای مخلوط با شن بهتر است از پارامترهای نسبت تخلخل بین ذرات ریزدانه (ef) و نسبت تخلخل بین دانه­ای (ec) به‌ترتیب در نواحی کنترل شونده توسط ذرات ماسه و شن به‌جای پارامترهای نسبت تخلخل کلی مخلوط یا تراکم نسبی مخلوط (Dr) استفاده شود.
کلیدواژه‌های فارسی مقاله خاک ماسه‌ای مخلوط با شن،روانگرایی،آزمایش سه‌محوری تناوبی،آزمایش المان خمشی پیزوالکتریک،سرعت موج برشی،
عنوان انگلیسی Liquefaction Behavior of Sand-Gravel Mixtures based on Cyclic Triaxial Tests
چکیده انگلیسی مقاله Most of the previous studies on liquefaction of soils have been concentrated on sandy soils since it was traditionally believed that only clean sandy soils are prone to liquefaction and those containing fine or coarse portions are unliquefiable. However, the evidences during past earthquakes have shown that sandy-gravel composites can also liquefy under certain circumstances. Although a number of recent laboratory studies have considered the liquefaction behavior of sand-gravel mixtures, some aspects of this behavior have not fully been understood yet. In this study, a series of undrained cyclic triaxial tests was performed to characterize the liquefaction behavior of sand-gravel mixtures with different gravel contents (GC) and relative densities (Dr). The tested soils comprised of Firoozkooh silica sand (no. 161) mixed with different amounts of a river gravel obtained from Tehran. In order to characterize the behavior of the mixtures in small strain range, shear wave velocity (Vs) of all tested specimens was measured using bender element tests. Combining all testing data, the effects of GC and Dr values on the liquefaction resistance and shear wave velocity of the samples were quantified. The tested samples had a diameter of 100 mm and a height of 200 mm and were prepared according to the wet tamping technique. The tests were performed on samples with three different Dr values of 10%, 30%, and 50% and five different GC values of 0%, 10%, 30%, 50% and 75%. In addition, for any combination of Dr and GC values, the tests were repeated with three different cyclic stress ratio (CSR) values, namely, 0.1, 0.15 and 0.2. The testing procedure included sample preparation, saturation, consolidation under a confining stress of 100 kPa, Vs measurement with bender elements and application of a cyclic deviatoric stress at the desired CSR value. The results of bender element tests show that for a constant GC value, Vs of the sample increases with its relative density. In addition, at any constant Dr, Vs increases as the GC value in the mixture increases up to 50%. In order to quantify the liquefaction behavior of the mixture, the variation of cyclic stress ratio (CSR) versus number of cyclic stress cycles (N) required to cause initial liquefaction in the samples defined by a double amplitude strain value of 5% or an excess pore pressure ratio (ru) of 1.0 were also scrutinized. The results demonstrate that N decreases with increasing CSR values. For all GC values, as the relative density of the mixture increases, the liquefaction resistance increases accordingly. The variation of liquefaction resistance of the mixture at a constant Dr value with gravel content shows that as GC increases up to 10%, the liquefaction resistance increases as well; however, with further increasing GC to 50%, the liquefaction resistance decreases and further increase in GC up to 75% increases the liquefaction resistance of the mixture. In other words, the highest liquefaction resistance is observed for a GC value of 75%. It should be added that at higher Dr values, the effect of GC on liquefaction resistance was found to be more significant. To interpret this behavior, it was further showed that the liquefaction behavior of the mixture can be well illustrated by dividing its behavior into two distinct parts, i.e. the sand-controlled and the gravel-controlled parts. For a sand-controlled part, the interfine void ratio (ef) can be used to characterize the liquefaction behavior of the mixture while within the gravel-controlled portion, the interangular void ratio (ec) is better to be adopted. These two definitions of void ratios can be substituted for Dr, which was conventionally used to quantify the liquefaction behavior of the soils. Finally, the correlation between  the liquefaction resistance of the mixtures with their Vsvalues was evaluated. The observations describe that for a
constant GC value, as Vs of the mixture increases, the liquefaction resistance increases as well whereas for a constant Vs value, with increasing GC up to 50%, the liquefaction resistance decreases. The reason is that in order to keep Vs constant during increasing the GC value, the sand matrix of the mixture should be kept looser and therefore, the mixture whose behavior in this case is profoundly controlled by the sand matrix, shows a lower liquefaction resistance.
کلیدواژه‌های انگلیسی مقاله خاک ماسه‌ای مخلوط با شن,روانگرایی,آزمایش سه‌محوری تناوبی,آزمایش المان خمشی پیزوالکتریک,سرعت موج برشی
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نشانی اینترنتی http://www.bese.ir/index.php/bese/article/view/577
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