Vol. 11, No. 1 (mai. 2026), eblg002
- Blog Prof. Ricardo Luiz Perez Teixeira, Itabira
- May 20
- 2 min read
Advances in Materials Science and Processing Technologies
Avanços em Ciência dos Materiais e Tecnologias de Processamento
Blog Prof. Ricardo Luiz Perez Teixeira (Engenharia, Inovação e Educação), Itabira, Vol. 11, No. 1 (jan. 2026), eblg002. https://doi.org/10.5281/zenodo.20300977
19/05/2026
Ricardo Luiz Perez Teixeira
Instituto de Engenharias Integradas da Universidade Federal de Itajubá, Itabira, MG, Brazil
Abstract
This blog text aims to foster understanding of different material transformation processes, highlighting how practices such as mineral flotation, laser welding, and abrasive wear analysis directly influence microstructure, efficiency, and industrial sustainability. The academic and technological objective is to correlate processing parameters, phase stability, and advanced characterization with practical results, reinforcing the role of applied research in generating innovative solutions. This integration underscores the relevance of materials science in strengthening technological competitiveness and meeting contemporary industrial demands.
Keywords
Abrasion, Characterization, Flotation, Microstructure, Welding, Sustainability.
Introduction
Recent scientific production demonstrates how different approaches in materials science and processing technologies have been applied to address industrial and environmental challenges. Teixeira (2026a) discusses the incorporation of green steel concepts in academic environments, emphasizing the importance of sustainability and pedagogical innovation. De Brito et al. (2026) present the optimization of iron ore flotation through statistical methodologies, reinforcing the role of mathematical modeling in improving mineral process efficiency.
Other studies deepen the relationship between microstructure and performance. Teixeira et al. (2026a) investigate the abrasive wear of metallic alloys under milling conditions, while Macedo, Nascimento, and Teixeira (2026) analyze the microstructural evolution of ferritic stainless steels subjected to laser welding. In parallel, Teixeira et al. (2026b) explore phase stability and the corrosive behavior of austenitic steels welded by GTAW, and Teixeira et al. (2026c) synthesize risks and limitations associated with laser processing. Collectively, these studies demonstrate how advanced characterization, computational modeling, and control of processing parameters are essential to promote efficiency, reliability, and sustainability across different industrial sectors.
References
de Brito, T. G., Nunes, T. C., Ramos, W. R., Paiva, E. J., Oliveira, C. H., Teixeira, R. L. P., de Lacerda, J. C., & Brito, R. F. (2026). Optimisation of iron ore flotation parameters using response surface methodology. Canadian Metallurgical Quarterly. https://doi.org/10.1080/00084433.2026.2668302
Macedo, V. T., Nascimento, R., & Teixeira, R. L. P. (2026). Evolução microestrutural do aço inoxidável ferrítico AISI 409 soldado a laser. Revista Brasileira de Iniciação Científica, 13, e026007.
Teixeira, R. L. P. (2026a). Lecture-based teaching of green steel concepts. Artefactum – Revista de Estudos Interdisciplinares, 25(1). https://doi.org/10.23900/artefactum.v25i1.2456
Teixeira, R. L. P., Cardoso, S. O., de Lacerda, J. C., Penha, R. N., Brito, R. F., de Brito, T. G., de Moraes, V. G., & Henriques, A. B. (2026a). Microstructure-dependent abrasive wear behavior of metallic alloys under tumbling abrasion. Materialwissenschaft und Werkstofftechnik. https://doi.org/10.1002/mawe.70093
Teixeira, R. L. P., Damasceno, A. I. P., Nascimento, R., Vilas Boas, S. B., de Lacerda, J. C., Penha, R. N., Brito, R. F., Hasegawa, H. L., de Brito, T. G., & da Silva, E. M. (2026b). Phase stability, microstructural evolution, and corrosion behavior of GTAW-welded AISI 316 L austenitic stainless steel. Materials Today Communications, 50, 114537. https://doi.org/10.1016/j.mtcomm.2025.114537
Teixeira, R. L. P., Nascimento, R., Damasceno, A. I. P., Nogueira, C. O. S., & Machado, A. R. T. (2026c). Laser processing risks and constraints. Revista de Gestão Social e Ambiental, 20(1). https://doi.org/10.24857/rgsa.v20n1-012
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