Application of Materials Engineering focused on increasing the service life of industrial components

Authors

DOI:

https://doi.org/10.33448/rsd-v10i6.15943

Keywords:

Engineering; Materials Engineering; Polymers; Life-cycle; Subassemblies.

Abstract

The components that are currently being employed in industrial processes have been subjected to excessive wear due to: their increased usage, the low quality of these products and / or the maintenance and operation services that are provided them, the lack of expertise of the labor employed in the production processes, the decrease in reserves having minerals that are free of contaminants, and the mechanical properties of the metals that are contained in these components. In light of the above, it is clear that, within industrial sectors, substantial losses exist, be they in terms of cost, productivity, safety or even those losses that arise from the work having to be redone or from the dissatisfaction among the personnel due to the substandard performance of the machines and equipment that they must use. The application of materials engineering, through various studies, has developed techniques for the use of polymers in order to increase the service life of these components, resulting in the emergence of subassemblies and / or machines and equipment that are fundamental to this paradigm shift. The ever-present need to reduce costs in the industrial market, whether it be from replacement, breakdowns, refurbishment and accidents due to the premature wear of components, has become a feasible option for many organizations, and, in sum, summarizes the social relevance of this research. Thusly, the following question is being put forth as a research hypothesis: How can Materials Engineering that is focused on increasing the service life of industrial components be applied?

Author Biography

Adriana Ferreira da Silva, Universidade Autônoma de Yucatán

Acuicultora, Specialist in Technology Biofloc, CEO Acuícola Garza, Professor at The Autonomous University of Yucatán, Graduated from the State University of Maringá in Animal Science, Master in Acuiculture from the Federal University of Rio Grande and PhD in Sciences, Acuiculture from the National Autonomous University of Mexico.

References

Ameida, Pedro M. M. da Costa & Magalhães, Victor Hugo da Silva (2004); Polímeros; 1° ed. Universidade Fernando Pessoa, Faculdade de Ciência e Tecnologia, Porto.

Callister Júnior, W.D. & Rethwisch, D.G. (2016). Ciência e engenharia de materiais: uma introdução (9a ed.). Rio de Janeiro: LTC.

Campos, Vicente Falconi. (1998). Gerenciamento da Rotina do Trabalho do Dia-a-Dia. 7. ed. Belo Horizonte: Editora de Desenvolvimento Gerencial, 276 p.

Departamento Nacional de Pesquisa Mineral. (2019). Cobre. Brasília: DNPM. http://www.dnpm.gov.br.

Flory, P. J. (1953). Principles of polymer chemistry. New York: Cornell University Press.

Geitner, F. K. & Bloch, H. P. (2015). Análise e solução de falhas em sistemas mecânicos (4a ed.). São Paulo: Elsevier-Campus.

Hernández, S. R., Fernández, C. C. & Baptista, P. (2003). Metodología de la investigación. México: McGraw-Hill.

Lindeburg, M. R. (2013). Fundamentos da engenharia mecânica: teoria e prática. Rio de Janeiro: LTC.

Kantoviscki, R. K. (2011). Estudo bibliográfico sobre polímeros ambientalmente sustentáveis. (Dissertação de mestrado em Engenharia Ambiental). Programa de Pós-graduação em Engenharia de Materiais - UTFPR, Curitiba, PR, Brasil.

Kepner, C. H. & Tregoe, B. B. (1997). The new rational manager (2a ed.). New Jersey: Princeton.

Mano, E. B. & Mendes L. C. (1999). Introdução a polímeros (2a ed.). São Paulo: Blucher.

Manrich, S. (2005). Processamento de termoplásticos, notas de estudo de engenharia química. São Paulo: Artliber Editora.

Masters, L.W. (1986). Prediction of service life of building materials and components. Materials and Structures, 19(6), 417-422.

Ministério da Defesa (2017). Inovação em Engenharia de Manutenção ajudará na manutenibilidade de sistemas e materiais de emprego militar. São Paulo: AGSP.

Sampieri at all (2003); Metodología de la Investigación; México: McGraw-Hill.

Shackelford, J. F. (2017). Ciência dos materiais (6a ed.). São Paulo: Pearson.

Werkema, Maria Cristina Catarino (1995). As Ferramentas da Qualidade no Gerenciamento de Processos. Belo Horizonte, Fundação Christiano Ottoni, Escola de Engenharia da UFMG, 128 p.

Revista In the Mine, (2020) (80°). ed: Repensar a Mineração. São Paulo, SP

Revista Brasil Mineral (2021), (2ed,). Investimentos em Mineração, São Paulo, SP

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Published

19/05/2021

How to Cite

ANDRADE, L. P. de; SILVA, A. F. da. Application of Materials Engineering focused on increasing the service life of industrial components. Research, Society and Development, [S. l.], v. 10, n. 6, p. e36810615943, 2021. DOI: 10.33448/rsd-v10i6.15943. Disponível em: https://rsdjournal.org/index.php/rsd/article/view/15943. Acesso em: 18 apr. 2024.

Issue

Vol. 10 No. 6

Section

Engineerings

License

Copyright (c) 2021 Leonardo Pereira de Andrade; Adriana Ferreira da Silva

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