A termodinâmica está ligada à ciência dos materiais; o que significa a obtenção de novos materiais que tenham propriedades químicas e físicas bem definidas. A termodinâmica, podemos dizer, é uma das bases da engenharia de materiais, pois os processos de fabricação de novos materiais envolvem a transferência de calor e o trabalho para as matérias-primas. O objetivo deste artigo é apresentar as aplicações da termodinâmica no estudo de propriedades químicas e físicas bem definidas de materiais de argila para a obtenção de novos tipos de materiais por meio de revisão bibliográfica.
With technological advances, the creation and use of sustainable materials is increasingly sought. One of the most widely used sustainable materials in civil construction corresponds to ecological bricks, thus, the present work aims to carry out a brief bibliographical survey on the reuse of waste in the manufacture of ecological bricks, aiming at sustainability. In this research, the studies presented show exactly different recyclable components, such as: PET bottles, Styrofoam, rubber, etc., precisely to add ecological diversity and impose an appropriate purpose to these resources in a way that motivates sustainable development. This investigation in several materials in the verification of the applicability of ecological brick, in order to submit and understand the behavior of these new materials.
The residues generated by the ceramic factories, among the most varied types, represent a large part of the waste produced and the one that comes from the production of red ceramics such as tiles and bricks, reflects in great part of all the constituents of these residues. The use of tailings is becoming an increasingly common practice, often because it does not have a correct final destination and in some places, there is a shortage of natural materials. The present work aims to study the addition of residues of ceramic tiles dust in the characteristics and properties of ecological brick. A literature review on the topic was carried out, in addition to granulometric characterizations, absorption tests, thermal comfort and simple compression. After carrying out the tests, the possibility of using it as a component of the ecological brick and using it in the region of Teresina-PI was studied. The samples produced with tile powder residue showed excellent results, therefore, through this study it was possible to prove that the reuse of these residues is valid for use in civil construction.
The main raw material for the production of ceramic materials is clay, it can be found in large quantities throughout Brazil, in addition to having a simple processing method in the preparation of the mass of ceramic tiles using mixtures of kaolinitic clays (not very plastic) and illitic (plastic) clays, this mixture favors by developing a series of functions such as: light-burning color; act as binders and plasticizers; facilitate fluidity, due to its melting properties, provide a good burning density and excellent mechanical resistance. This work addresses the main basic white-burning raw materials used in the production of ceramic tiles: quartz, kaolin, talc and limestone and their influence on the ceramic mass. All raw materials mentioned are available in the State of Piauí. For this, a bibliographic review of a descriptive, basic and qualitative nature was carried out on the theme and with the results, it was possible to identify the existence of white-burning raw materials in the State of Piauí that can be used in the production of ceramic coating.
New elements are needed to contribute to the idea of not reusing the materials, but rather improving their use, the massará for example is known in the region of Teresina-PI is a connecting material, of little consistency, easily disaggregatable (friable), containing white silica pebbles and of little utilização in the region. The interlocked concrete floor presents peculiar characteristics among which are those that configure it as a floor. The work analyzes through a mechanical strength and water absorption test the capacity that the interlocked concrete floor with the addition of massará in its composition offers in relation to bear load. Two traces with massará will be tried and then specimens will be molded to obtain the results of mechanical tests and characterization of the material in the laboratory. After the tests, it was observed the possibility of using it as components in the production of interlocked laying blocks used in construction companies of Teresina - PI.
In this study, the influence of partial introduction as glass as fine aggregate on the composition of simple concrete is analyzed, considering that sand (fine aggregate currently used) has been used on a large scale in civil construction over the years and has been affecting the environment. The main objective of this research was to analyze the mechanical properties of concrete, partially replacing the natural sand with another fine aggregate made from glass residues, evaluating the behavior presented at the end of each test using different percentages of this material as fine aggregate in the concrete composition. From an experimental methodology that consisted of determining an object of study (concrete), selecting the variable that would possibly be able to influence it (glass powder) and defining the ways of controlling and observing the effects that the variable would produce on the object, an interpretation of how the mechanical properties of the glass powder that affect the performance of structural concrete is presented. The granulometry was subsequently analyzed, the tests carried out both in the fresh and hardened state of the concrete, and identified that the glass in a certain percentage proves to be viable. Finally, it can be concluded that the partial inclusion of glass affects the mechanical properties of structural concrete, and can present quite satisfactory results, both related to the environment, since the sand would not be used entirely as fine aggregate or in reaching a resistance suitable for its final use.
The brick is composed of water, soil and cement, having an easy manufacturing process, with short construction and low cost is not subjected to burning is manufactured by a very different process from ceramic blocks, the same goes through a hydraulic press. This type of brick has characteristics that provide quality, sustainability, beauty, and above all savings in the total cost of the work. When used in construction are eliminated some steps and the execution time in the work. A block wall or ceramic brick will need roughcast, sketch, plaster, seamer and painting, besides considering the cost of these materials can not forget the labor that corresponds to an average 50% of the value of the work. But the great advantage over the other bricks is its construction system, once raised the wall this is ready, does not need finishing, and the pillar structure and beams are ready with it. Electrical and Hydraulic Installations are easily installed without the need for breakage and waste. These bricks do not require the use of mortars for laying, coatings such as plastering for regularization and finishing of walls, in addition to accelerating the work with their fittings that facilitate the alignment and plumb of the walls. The objective of this work is present through a literature review of optimization processes that involve the ecological brick. in addition to accelerating the work with their fittings that facilitate the alignment and plumb of the walls. The objective of this work is present through a literature re-view of optimization processes that involve the ecological brick. in addition to accelerating the work with their fittings that facilitate the alignment and plumb of the walls. The objective of this work is present through a literature review of optimization processes that involve the ecological brick.
O artigo teve como objetivo analisar a etapa de desenvolvimento de projetos e a prática de compatibilização dos mesmos, além de verificar as interferências entre os principais tipos de projetos realizados para uma boa execução na construção civil. Ao longo da revisão bibliográfica, são abordados alguns tópicos importantes como conceito e concepção de projeto e sua importância para a construção civil. Logo após, apresentam-se algumas informações sobre compatibilização e coordenação, e por fim, estão presentes alguns tópicos relacionados à plataforma CAD, plataforma BIM e softwares que trabalham com essas tecnologias. Para obter as informações necessárias, optou-se por realizar um levantamento de dados com aplicação de questionário destinado aos profissionais da área de Engenharia Civil e Arquitetura, com questionamentos que enfocam o uso de softwares com metodologia BIM, problemas oriundos da não compatibilização de projetos e aspecto que o BIM mais enfoca. Com os resultados obtidos, foi possível constatar que a quantidade de problemas em edificações devido as interferências entre projetos apresentaram números expressivos. Uma forma de reduzir essa problemática, é através da melhor comunicação entre os profissionais envolvidos na etapa de projeto e execução da obra.
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