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Your search keyword '"Victor Caso Moreira"' showing total 14 results
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14 results on '"Victor Caso Moreira"'

1. Surface roughness and profile dataset of Ti6Al4V textured by laser ablation and spark erosionMendeley Data

Author

Victor Caso Moreira, Artur Fernando de Vito, Junior, Fabrizio Leonardi, Sergio Delijaicov, and Rodrigo Magnabosco

Subjects
Surface texturing, Surface structuring, Titanium alloy, Interferometer, Computer applications to medicine. Medical informatics, R858-859.7, Science (General), Q1-390
Abstract

The Ti6Al4V alloy is widely recognized for its extensive industrial applications, particularly in the aeronautics sector, due to its exceptional strength to-weight ratio and corrosion resistance. In this context, many industrial processes depend critically on surface area, topology, and roughness. A promising approach involves combining Ti6Al4V alloy with polymer composites, which offers significant potential for engineers to design parts that are not only high-performing but also environmentally friendly. Friction stir spot welding (FSSW) emerges as a viable technique for achieving a robust bond between the metal and polymer composite materials. However, a critical factor in this process is the surface profile of the metal, which plays a pivotal role in ensuring strong adhesion between the polymer and the titanium substrate. The data provided focus on analyzing the surface profile and roughness achieved through laser ablation, an advanced technique used for surface texturing, and explores spark erosion as an alternative method.

Published
2024
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2. A Dilatometric Study of the Influence of Residual Iron Content on the Annealing Behavior of Cartridge Brass

Author

Victor Caso Moreira and André Paulo Tschiptschin

Subjects
Recrystallization, Growth, dilatometry, Brass, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

Solid solutions alloys may have their annealing behavior affected by solute concentration. Mathematical models assume complex equations with parameters of hard and tedious assessment making empirical tests rather necessary. This work evaluated the residual iron content (from ~100 ppm to ~600 ppm) influence on annealing of a cartridge brass. Dilatometry results showed an anomaly expansion peak on the onset of recrystallization. However, at the end of the annealing process the samples underwent a contraction of 4.68-7.51x10-4, comparable with literature. The residual iron content had no influence on recrystallization behavior of the samples, although solute drag effect clearly slowed down grain growth at 600 ppm Fe concentration, especially when annealing happens up to 500ºC. The dilatometric variations between the samples and the anomaly expansion peak during recrystallization were considered as resulting from grain growth of recrystallized nanosized grains and/or from second phase transformations. New tests are proposed to elucidate the phenomena behind observations.

Published
2016
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5. A Dilatometric Study of the Influence of Residual Iron Content on the Annealing Behavior of Cartridge Brass

Author

André Paulo Tschiptschin and Victor Caso Moreira

Subjects
Materials science, Annealing (metallurgy), Growth, 02 engineering and technology, Residual, 01 natural sciences, Brass, Solvent drag, 0103 physical sciences, General Materials Science, Materials of engineering and construction. Mechanics of materials, 010302 applied physics, Mechanical Engineering, Metallurgy, Recrystallization (metallurgy), Recrystallization, 021001 nanoscience & nanotechnology, Condensed Matter Physics, dilatometry, Grain growth, Mechanics of Materials, visual_art, TA401-492, Dynamic recrystallization, visual_art.visual_art_medium, 0210 nano-technology, Solid solution
Abstract

Solid solutions alloys may have their annealing behavior affected by solute concentration. Mathematical models assume complex equations with parameters of hard and tedious assessment making empirical tests rather necessary. This work evaluated the residual iron content (from ~100 ppm to ~600 ppm) influence on annealing of a cartridge brass. Dilatometry results showed an anomaly expansion peak on the onset of recrystallization. However, at the end of the annealing process the samples underwent a contraction of 4.68-7.51x10-4, comparable with literature. The residual iron content had no influence on recrystallization behavior of the samples, although solute drag effect clearly slowed down grain growth at 600 ppm Fe concentration, especially when annealing happens up to 500ºC. The dilatometric variations between the samples and the anomaly expansion peak during recrystallization were considered as resulting from grain growth of recrystallized nanosized grains and/or from second phase transformations. New tests are proposed to elucidate the phenomena behind observations.

Published
2016
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12. Effect of residual percentage of Fe on the annealing behavior of 70/30 brass

Author

Victor Caso Moreira, Andre Paulo Tschiptschin, Júlio César Dutra, and Fernando Jose Gomes Landgraf

Abstract

A liga Cu-30%Zn, conhecida como latão 70/30, possui diversas aplicações comerciais, tais como cartuchos para munição e conectores elétricos. Na produção de chapas e barras dessa liga no formato e nas propriedades almejadas para a aplicação final, comumente utiliza-se de tratamento térmicos para restauração das propriedades mecânicas, chamados de recozimento. Em particular, o efeito de solutos em solução sólida é um fator determinante para o comportamento de ligas metálicas durante o recozimento e deve ganhar importância com a tendência industrial de utilização de matéria-prima reciclada, gerando adições inadvertidas de elementos químicos que estarão presentes como solutos em solução sólida. Este trabalho levanta dados referentes a alterações no comportamento do latão 70/30 diante do tratamento de recozimento causados por teores residuais de ferro. Com base na revisão da literatura, propôs-se a metodologia de tratamentos interrompidos em dilatômetro para o estudo do recozimento de três materiais: CuZn-1Fe (0,0126%Fe), CuZn-4Fe (0,0417%Fe) e CuZn-6Fe (0,0599%Fe). Duas taxas de aquecimento foram utilizadas: 10 ºC/min e 1000 ºC/min. As propriedades mecânicas foram avaliadas em termos de microdureza Vickers e a fração recristalizada determinada por metalografia quantitativa. As análises microestruturais mostraram que a recristalização inicia-se preferencialmente em bandas de cisalhamento. A análise conjugada dos resultados mostra a seguinte faixa de temperatura de recristalização: taxa de aquecimento de 10 ºC/min - 295ºC a 345ºC; taxa de 1000 ºC/min - 365ºC a 445ºC, sendo que o teor residual de ferro não causa alterações neste comportamento. A análise das amostras recozidas isotermicamente a 500ºC e a 600ºC mostram uma tendência à formação de uma microestrutura heterogênea, possivelmente pela evolução da microestrutura de recristalização, que dá origem a grãos grosseiros em sua etapa final. A amostra com 599 ppm de Fe não apresentou evolução do tamanho de grão a 500ºC. Resultados de MET não mostraram a formação de partículas dispersas, enquanto análises de DSC revelaram um pico prévio à recristalização, identificado como a formação de uma atmosfera de Cottrell, sendo esta atrasada pela presença de ferro em solução sólida. The Cu-30%Zn alloy, known as 70/30 brass, has many commercial applications like ammunition cartridge and electronic connectors. To properly produce strips and bars of this material it is necessary to realize a heating treatment called annealing, which aims on recovering the mechanical properties of the material. The effect of solute atoms is a high important factor to determine the material behavior during annealing. This issue is getting even more importance to industrial applications, due to the increase of the recycle of waste products. These wastes often contaminate the molten metal with foreign elements which may be in solid solution after solidification. This work aims to assess changes in behavior of the 70/30 brass during annealing due to iron in residual content. Based on literature, it was proposed a methodology which takes advantages of interrupted annealing in dilatomer and isothermal annealing for three different iron residual content: CuZn- 1Fe (0,0126%Fe), CuZn-4Fe (0,0417%Fe) and CuZn-6Fe (0,0599%Fe). Two heating rates were used: 10 ºC/min e 1000 ºC/min. The mechanical properties were evaluated by Vickers microhardness and the recrystallized fraction was determined by quantitative microscopy. The microstructural analysis showed that the recrystallization starts preferentially on shear bands. The results from different techniques showed that the recrystallization temperature range is 295ºC to 345ºC when the heating rate was 10 ºC/min and 365º to 445ºC for 1000 ºC/min. There were no evidences of changing the brass behavior during annealing with the residual iron content. The isothermal annealed samples demonstrated a tendency for the formation of a heterogeneous microstructure at both 500ºC or 600ºC, which can be due to the recrystallization microstructure evolution. In the final stage, bigger recrystallized grains are formed inside cold worked grains. Also, the material with 599 ppm Fe did not change its grain size during annealing at 500ºC. MET results did not demonstrate the occurrence of dispersed iron particles. DSC analysis showed a peak prior to recrystallization, which was identified as the formation of a Cottrell atmosphere in all samples. The iron solute seems to detain its occurrence.

Published
2015

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