Showing total 6 results

1. Influence of kaolin and red clay on ceramic specimen properties when galvanic sludge is incorporated to encapsulate heavy metals.

Author

Brasil FM, Oliveira DL, Melquíades MO, Nobre FX, Balestra CET, Ardisson JD, Fabris JD, Santana GP, and Ramirez MA

Subjects

Brazil, Kaolin chemistry, Clay chemistry, Metals, Heavy chemistry, Metals, Heavy analysis, Ceramics chemistry, Sewage chemistry

Abstract

This study presented the influence of two types of clay: kaolin (Kao) and red clay (RC) on the chemical and physical properties of ceramic specimens when galvanic sludge (GS) is incorporated to encapsulate heavy metals. Samples were obtained of GS from the industrial district of Manaus - Amazonas State, Brazil, and kaolin (Kao), and red clay (RC) from the Central Amazon. A fourth sample was prepared by mixing GS, Kao, and RC in the ratio 1:1:8 (GS + Kao + RC). This mixture was ground, and ceramic specimens were prepared, and heat treated at 950 °C and 1200 °C for three hours for phase detection, compressive strength, leaching of Fe, Ni and Cr metals and life cycle assessment. Galvanic sludge, Kao, and RC were also, and heat treated to at 950 °C and 1200 °C for three hours, obtaining GS950, GS1200, Kao950, Kao1200, RC950, and RC1200. The samples were submitted to XRF, XRD, Rietveld refinement, Mössbauer spectroscopy, TG/DTG/DSC, and SEM. The results show that the formation of nickel oxide and a spinel solid solution of the type Fe 3+ {Fe 1-y 3+ ,Fe 1-x 2+ ,Ni x 2+ . At 1200 °C, heavy metals are encapsulated, forming other phases such as nickel silicate and hematite. Life cycle assessment was used to verify the sustainability and value of GS in clay for making bricks, and it indicated that the production of ceramics is feasible, reduces the use of clays, and is sustainable.y 3+ }O 4 (in which [] = tetrahedral site, {} octahedral site) occurs in GS1200, which is caused by sulfate decomposition to SO 2 . At 1200 °C, heavy metals are encapsulated, forming other phases such as nickel silicate and hematite. Life cycle assessment was used to verify the sustainability and value of GS in clay for making bricks, and it indicated that the production of ceramics is feasible, reduces the use of clays, and is sustainable., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

2. Ceramic shell waste valorization: A new approach to increase the sustainability of the precision casting industry from a circular economy perspective.

Author

Oliveira KA, Simão L, Rebouças LB, Hotza D, Montedo ORK, Novaes de Oliveira AP, and Raupp-Pereira F

Subjects

Industrial Waste, Public Policy, Brazil, Ceramics, Waste Management

Abstract

The problem of waste generation has grown because of the need to extract natural resources, obtain materials, and consume energy to meet current societal needs. Many studies have been conducted worldwide in favor of technological solutions for the valorization of industrial waste (IW) but few discussed relevant data for effective recovery. In this study, a case study of ceramic shell waste (CSW) was performed using, for the first time, a waste valorization system based on the classification, potentiality, quantity/viability, and applicability criteria (CPQvA) in a specific region (Brazil). CPQvA is a multicriteria decision-making system that acts as a guide to help managers and researchers connect the potential of IW with the feasibility of its application in a product or another process. Using the proposed systematic criteria, it was possible to demonstrate similarities and differences in waste applications. Thirteen possible products made from CSW were analyzed based on all the parameters of CPQvA. Ceramic filters and refractory aggregates were the most viable products. Creating public policies that encourage the use of waste as a raw material could make the precision casting industry process cleaner and the economy more circular., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2023

3. A Study of Multilayer Perceptron Networks Applied to Classification of Ceramic Insulators Using Ultrasound.

Author

Sopelsa Neto, Nemesio Fava, Stefenon, Stéfano Frizzo, Meyer, Luiz Henrique, Bruns, Rafael, Nied, Ademir, Seman, Laio Oriel, Gonzalez, Gabriel Villarrubia, Leithardt, Valderi Reis Quietinho, Yow, Kin-Choong, Tomida, Akemi Galvez, and Prieto, Andres Iglesias

Subjects

ULTRASONIC imaging, ELECTRIC power distribution grids, CERAMICS, ARTIFICIAL intelligence, MACHINE learning, ULTRASONIC imaging equipment

Abstract

Interruptions in the supply of electricity cause numerous losses to consumers, whether residential or industrial and may result in fines being imposed on the regulatory agency's concessionaire. In Brazil, the electrical transmission and distribution systems cover a large territorial area, and because they are usually outdoors, they are exposed to environmental variations. In this context, periodic inspections are carried out on the electrical networks, and ultrasound equipment is widely used, due to non-destructive analysis characteristics. Ultrasonic inspection allows the identification of defective insulators based on the signal interpreted by an operator. This task fundamentally depends on the operator's experience in this interpretation. In this way, it is intended to test machine learning applications to interpret ultrasound signals obtained from electrical grid insulators, distribution, class 25 kV. Currently, research in the area uses several models of artificial intelligence for various types of evaluation. This paper studies Multilayer Perceptron networks' application to the classification of the different conditions of ceramic insulators based on a restricted database of ultrasonic signals recorded in the laboratory. [ABSTRACT FROM AUTHOR]

Published

2021

4. Sustainable Mining: Reuse of Clay from Abandoned Areas in the South of Brazil for Ceramic Production Based on a Simplex Design.

Author

Saviatto, Emily, Zaccaron, Alexandre, Nandi, Vitor de Souza, Acordi, Juliana, Arcaro, Sabrina, Raupp-Pereira, Fabiano, Galatto, Sergio Luciano, and Ribeiro, Manuel Joaquim

Subjects

CLAY, ABANDONED mines, EXTRUSION process, CERAMICS, MINES & mineral resources, BRICKS

Abstract

The environmental impact of clay mining can be minimized using extractive mineral circularity practices. Combining the available knowledge of the characteristics of different clays with statistical tools was a decisive step for the improved use of mining resources. Through blends, all the mined materials can be incorporated to produce quality ceramic products. This study identified two types of clay from abandoned mining areas in the southern state of Santa Catarina, Brazil. These raw materials were valued together with plastic clay, which is widely used in the region, to develop 10 different formulations using a mixture design method. The clays were characterized using average granulometric distribution, mineralogical composition, and chemical, thermal and plasticity analyses. The specimens were shaped by extrusion, dried in an oven, fired in a muffle furnace and characterized based on their shrinkage, water absorption and compressive strength values. Two clays with varying characteristics—one with low workability and the other with a high silica content—exhibited difficulties (generating defects) in the extrusion shaping process, which compromised the final quality of the ceramic paste. Results showed that incorporating up to 45% by mass of the low-workability clay resulted in an increase in water absorption. The more siliceous clay improved dimensional control; however, its use at high contents (~80%) decreased the mechanical resistance. Nevertheless, when used in controlled amounts, these clays can be beneficial to the production of blocks and bricks because they have the potential to improve some properties of the finished ceramic products. [ABSTRACT FROM AUTHOR]

Published

2023

5. Basalt-Containing Pressed Cement Plates for Construction Systems: Technological and Toxicological Characterization.

Author

Rodrigues da Silva, Kamila, de Jesus, Franciele B. T., Inocente, Jordana, Arcaro, Sabrina, Raupp-Pereira, Fabiano, and Montedo, Oscar R. K.

Subjects

ENVIRONMENTAL impact analysis, CEMENT, BASALT, CONCRETE slabs, BENDING strength, ORE-dressing, SAND

Abstract

In recent years, industries have been demanded for better disposal methods of byproducts. In addition, civil construction in Brazil has been steadily growing, necessitating the development of new resources and the use of new materials. Thus, to reduce the environmental impact and costs, the use of byproducts in civil construction plays an important role. This study presents experimental results on the development of cementitious material-based plates for the construction system of panel slabs using powder technology to reduce the amount of concrete in the slab. In this study, sand was partially (58.1% by weight, C3) and totally (C1) replaced by basalt powder, a byproduct of the basaltic rock beneficiation process. Cementitious plates were obtained by uniaxial pressing at different compaction pressures. The moulded plates (M) using sand and cement were obtained as references. The bending strength at 28 days of curing was 2.50±0.10 MPa , which is higher than that of the moulded plates (1.94±0.11 MPa). It was concluded that pressing and sand substitution by basalt reduced the linear expansion from 0.059%±0.003% (M) to 0.042%±0.007% (C3), reducing the risk of cracking. The evaluation of the environmental impact showed the potential of replacing sand with basalt, thus reducing the cost of the material. Therefore, pressed plates with the total substitution of sand by basalt achieved better results related to the moulded plates and demonstrated considerable potential for application in the civil construction industry. [ABSTRACT FROM AUTHOR]

Published

2022

6. Kôgei between Japan and Brazil: The ceramics of Shoko Suzuki.

Author

Morais, Liliana

Subjects

POTTERY, ART materials, CERAMICS, CERAMIC sculpture

Published

2021