Redirigiendo al acceso original de articulo en 19 segundos...
Inicio  /  ChemEngineering  /  Vol: 7 Par: 4 (2023)  /  Artículo
ARTÍCULO
TITULO

Optimizing the Sulfates Content of Cement Using Neural Networks and Uncertainty Analysis

Dimitris C. Tsamatsoulis    
Christos A. Korologos and Dimitris V. Tsiftsoglou    

Resumen

This study aims to approximate the optimum sulfate content of cement, applying maximization of compressive strength as a criterion for cement produced in industrial mills. The design includes tests on four types of cement containing up to three main components and belonging to three strength classes. We developed relationships correlating to 7- and 28-day strength with the sulfate and clinker content of the cement (CL), as well as the clinker mineral composition (tricalcium silicate, C3S, tricalcium aluminate, C3A). We correlated strength with the ratio %SO3/CL and the molecular ratios MSO3/C3S and MSO3/C3A. The data processing stage proved that artificial neural networks (ANNs) fit the results? distribution better than a parabolic function, providing reliable models. The optimal %SO3/CL value for 7- and 28-day strength was 2.85 and 3.00, respectively. Concerning the ratios of SO3 at the mineral phases for 28-day strength, the best values were MSO3/C3S = 0.132?0.135 and MSO3/C3A = 1.55. We implemented some of the ANNs to gain a wide interval of input variables? values. Thus, the approximations of SO3 optimum using ANNs had a relatively broad application in daily plant quality control, at least as a guide for experimental design. Finally, we investigated the impact of SO3 uncertainty on the 28-day strength variance using the error propagation method.

 Artículos similares

       
 
Hanna Ivashchyshyn,Myroslav Sanytsky,Tetiana Kropyvnytska,Bohdan Rusyn     Pág. 39 - 47
The studies have established the influence of various types of supplementary cementitious materials on physical and mechanical properties and structure formation of low-emission multi-component cements. The results of the granulometric composition examin... ver más

 
Styliani Papatzani and Kevin Paine    
With the current paper three nano-Montmorillonites (nMt) are applied in cement nanohybrids: an organomodified nMt dispersion, nC2; an inorganic nMt dispersion, nC3; and an organomodified powder, nC4. nC4 is fully characterized in this paper (X-ray diffra... ver más
Revista: Applied Sciences

 
José Marcos Ortega, Marta Cabeza, Antonio José Tenza-Abril, Teresa Real-Herraiz, Miguel Ángel Climent and Isidro Sánchez    
Recently, there has been a great effort to incorporate industrial waste into cement-based materials to reach a more sustainable cement industry. In this regard, the Bayer process of obtaining alumina from bauxite generates huge amounts of waste called re... ver más
Revista: Applied Sciences

 
Md. Nazmul Huda, Mohd Zamin Jumaat, A. B. M. Saiful Islam, Mahmudur Rahman Soeb     Pág. 133 - 139
Due to environmental issues, the use of waste materials in concrete is gaining popularity. Waste materials, such as oil palm shell (OPS) and palm oil clinker (POC) from the Malaysian palm oil industry are being used in various researches to produce light... ver más

 
Thiago Melanda Mendes, Leonardo Guerra, Gilson Morales     Pág. 431 - 436
Portland cement is widely used as a building material and more than 4.3 billion tons were produced in 2014, with increasing environmental impacts by this industry, mainly through CO2 emissions and consumption of non-removable raw materials. Several by-pr... ver más