جستجوی مقالات مرتبط با کلیدواژه « mechanical properties » در نشریات گروه « جغرافیا »
تکرار جستجوی کلیدواژه «mechanical properties» در نشریات گروه «علوم انسانی»-
This paper presents the development of self-compacting lightweight concrete (SCLC) incorporating pumice. Seven concrete series with water–binder ratios of 0.4 and a constant total binder content of 550 kg/m3 were designed. The pumice was added at proportions corresponding to 5%, 10%, 15%, 20%, 25% and 30% by weight of cement. The performance of mixtures was evaluated by conducting comprehensive series of tests on fresh and hardened properties. Fresh properties of mixtures were assessed by slump flow diameter, T50, V-funnel flow time and L-Box. Also hardened properties were investigated via compressive strength, flexural strength, density and water absorption. The fresh concrete test results revealed that by substituting optimum levels of pumice in SCLC, satisfactory workability and rheological properties can be achieved. 10% pumice significantly enhanced the compressive and flexural strength of SCLC at later ages. The density of the SCLC containing pumice was lower than those of the control SCLC. A lower absorption and permeability can be achieved for mixes especially mixtures incorporating 10% pumice. In general, it seems that 10% pumice can be considered as a suitable replacement regarding to the economic efficiency, fresh and hardened properties. Petrographic examination of concrete samples shows that pumice aggregates are in the range of basalt to basalt andesite and have about 30% porosity. The minerals inside the pumice aggregates include feldspar and hornblende and some quartz, as well as some fine iron oxide minerals.Keywords: lightweight concrete, Pumice, Mechanical Properties, Thin sections, Petrography}
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Pozzolan is an additive to cement clinker that if added to the high quality cement and concrete, it can be effective in enhancing the quality of cement and concrete resulting from high quality controlled precision and repeated sampling and continuous testing. Concrete creates the cement-free concrete without any additives. Documentary reports and rigorous scientific studies have shown that good pozzolan can, in addition to increasing the chemical resistance of concrete, eliminate the defects caused by the use of conventional cement in concrete and due to the diversity of water and soil use in different areas. In this study, the effect of natural pozzolan in different grades of cement on the mechanical properties and permeability of concrete at 7 and 28 days of age is investigated. It was found that with increasing cement grade, the water absorption rate of concrete increased. Also, the effect of pozzolan on the permeability of concrete samples is increased by increasing the pozzolan water absorption rate. Also, the effect of cement grade on the compressive strength of concrete was found to decrease with increasing concrete grade. Today using alternative sources in concrete productions is important, due to its economical and environmental considerations. Pozzolans are one of these resources which decrease the environmental pollutions and production costs of concrete structures.Keywords: Pozzolan, Cement, Mechanical Properties, permeability, Water absorption rate}
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فاکتور فرسایش پذیری، معیاری از مقاومت ذرات خاک در برابر جداشدن و انتقال و اثر عوامل فرساینده (قطرات باران، رواناب و باد) در فرآیند هدررفت خاک است. در این پژوهش، از روش غیرخطی ماشین های بردار پشتیبان (SVMs) برای بررسی اثرات برخی از ویژگی های توپوگرافی، فیزیکی و مکانیکی خاک بر فرسایش پذیری در بخشی از حوضهی آبخیز کارون شمالی واقع در غرب استان چهارمحال و بختیاری استفاده و نتایج حاصله با خروجی حاصل از روش خطی رگرسیون چند متغیره (MLR) مقایسه شد. هم چنین قابلیت استفاده از این دو روش برای برآورد فاکتور فرسایش پذیری خاک در منطقه ی مورد مطالعه، بررسی گردید. برای سنجش کارایی این روش ها نیز از برخی شاخص های آماری نظیر ضریب همبستگی (r)، ریشه میانگین مربعات خطا (MSE)، شاخص کارایی مدل (MEF) و درصد خطا (ERROR%) استفاده شد. نتایج نشان داد که مدل غیرخطی SVMs دارای کارایی بسیار بالاتری نسبت به روش خطی مرسوم (رگرسیون چند متغیره) برای تخمین فاکتور فرسایش پذیری بود. مقادیر ERROR% و r مدل SVMs به ترتیب، برابر 07/ 0 و 90/ 0 بودند. مقدار MEF برای تخمین فاکتور فرسایش پذیری با استفاده از مدل SVMs برابر 79/ 76 درصد بود درحالی که مقدار آن برای مدل MLR، 04/ 18- درصد بود. نتایج حاصل از تعیین ویژگی های اثرگذار بر فرسایش پذیری خاک در نقاط مورد مطالعه با استفاده از این دو روش نیز نمایان گر آن بود که بر اساس روش خطی MLR، تنها متغیرهای درصد کل شن، جهت شیب، درصد خاکدانه های بین 25/ 0 تا 5/ 0 میلی متر، درصد شن بین 2 تا 4 میلی متر و درصد رس به عنوان ویژگی های اثرگذار بر فرسایش-پذیری خاک در منطقه ی مورد مطالعه معرفی شدند. این درحالیست که در روش غیر خطی SVMs، تمامی ویژگی های مورد مطالعه بر فاکتور فرسایش پذیری موثر تشخیص داده شدند اگرچه پارامترهای میانگین وزنی قطر خاکدانه ها (MWD) و درصد ذرات شن بین 25/ 0 تا 5/ 0 میلی متر دارای بیش ترین و پارامتر جهت شیب دارای کم ترین ضریب تاثیر بوند.
کلید واژگان: فرسایش خاک, فاکتور k, ویژگی های توپوگرافی, ویژگی های فیزیکی و مکانیکی خاک و ماشین های بردار پشتیبان}Soil erodibility factor is a criterion of soil particle resistance to detachment, transport, and effects of erosivity factors (rain drop, runoff, and wind) during the soil loss processes. In this study, non-linear support vector machines (SVMs) method was used for investigating the effects of some topography, soil physical and mechanical properties on soil erodibility in a part of Northern Karoon watershed at the west of Chaharmahal Bakhtiary province. The obtained results were compared with the outputs of a linear (i.e. multiple linear regression, MLR) method. Furthermore, potential use of the two methods for estimating the soil erodibility factor was investigated in the study area. The correlation coefficient (r), root mean square error (RMSE), model efficiency factor (MEF), and error percentage (ERROR%) were used to evaluate the performance of the models. The results showed that the constructed SVM model had greater performance in predicting the erodibility factor compared to the traditional MLR model. The obtained ERROR% and r values for the developed SVM model were 0.07 and 0.90, respectively. The obtained MEF value for the erodibility factor prediction using the SVM model was 76.79 % while it was -18.04 % for the MLR model. The results from determining the properties influencing the soil erodibility in the investigated points using the two methods revealed that only the sand content, aspect, pods (size between 0.25-0.5 mm), clay content properties were accounted as effective parameters according to the MLR model. Whereas, all investigated properties were determined as effective parameters resulting from the non-linear SVM model. However, the parameters mean weight diameter (MWD) and sand content (size between 0.25-0.5 mm) had the highest importance coefficient and aspect parameter had the lowest coefficient.Keywords: soil erosion, K factor, topography, soil physical, mechanical properties, support vector machines (SVMs)}
نکته
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