Prediction of Concrete Compressive Strength Using a Back-Propagation Neural Network Optimized by a Genetic Algorithm and Response Surface Analysis Considering the Appearance of Aggregates and Curing Conditions

In the present research, the authors have attempted to examine the compressive strength of conventional concrete, which is made using different aggregate sizes and geometries considering various curing temperatures. To this end, different aggregate geometries (rounded and angular) were utilized in various aggregate sizes (10, 20, and 30 mm) to prepare 108 rectangular cubic specimens. Then, the curing process was carried out in the vicinity of wind at different temperatures (5 °C < T < 30 °C). Next, the static compression experiments were performed on 28-day concrete specimens. Additionally, each test was repeated three times to check the repeatability of the results. Finally, the mean results were reported as the strength of concrete specimens. Response Surface Analysis (RSA) was utilized to determine the interaction effects of different parameters including the appearance of aggregates (shape and size) and curing temperature on the concrete strength. Afterwards, the optimum values of parameters were reported based on the RSA results to achieve maximum compressive strength. Moreover, to estimate concrete strength, a back-propagation neural network (OBPNN) optimized by a genetic algorithm (GA) was used. The findings of this study indicated that the developed neural network approach is greatly consistent with the experimental ones. Additionally, the compressive strength of concrete can be significantly increased (about 30%) by controlling the curing temperature in the range of 5–15 °C.

Авторы
Reza Kashyzadeh Kazem1, 2 , Amiri Nima2 , Ghorbani Siamak 1 , Souri Kambiz 1
Журнал
Издательство
MDPI Multidisciplinary Digital Publishing Institute
Номер выпуска
4
Язык
Английский
Страницы
438
Статус
Опубликовано
Том
12
Год
2022
Организации
  • 1 Российский Университет Дружбы Народов
  • 2 Sharif University of Technology, Tehran
Ключевые слова
Concrete compressive strength; Appearance of aggregates; Curing temperature; Response surface analysis; Artificial neural network; Genetic algorithm
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