Programa de Pós-Graduação em Engenharia Mecânica - PPGEM /ITEC
URI Permanente desta comunidadehttps://repositorio.ufpa.br/handle/2011/2341
O Programa de Pós-Graduação em Engenharia Mecânica (PPGEM) do Instituto de Tecnologia (ITEC) da Universidade Federal do Pará(UFPA). Tem por objetivo formar recursos humanos qualificados, e incentivar a pesquisa e o aprofundamento dos estudos técnicos e científicos relacionados ao campo de atuação da Engenharia Mecânica com aplicação na realidade e necessidades da região amazônica.
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Navegando Programa de Pós-Graduação em Engenharia Mecânica - PPGEM /ITEC por Orientadores "BRAGA, Eduardo de Magalhães"
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Item Acesso aberto (Open Access) Caracterização microestrutural e de propriedades mecânicas de soldas do aço ASTM A 131 pelos processos FCAW convencional e com adição de arame frio(Universidade Federal do Pará, 2011-09-23) RODRIGUES, Lino Alberto Soares; BRAGA, Eduardo de Magalhães; http://lattes.cnpq.br/4783553888547500The work presented here show comparatively mechanical properties and microstructure of weld metals employing two welding techniques, an already disseminated, FCAW (arc welding with cored wire) and the other is innovative, FCAW-AF (arc welding with Adding Tubular Wire with a cold wire is not energized) at three levels of speed 6, 8 and 10 m / min. In this process two diameters of the cold wire 0.8 and 1.0 mm were used. The base metal used was a naval steel ASTM 131 grade A (low carbon) in geometry of plates 150 mm x 300 mm x 9.5 mm, applied to V-groove (Bisel of 22.5°) with angle 45° summed, with mild opening of root of 2.4 mm. The weld used was top type with the application of two passes, one root pass and the pass of finish (or filling). In order to establish of weld conditions 5 types of destructive were carried out: face transverse bend, tension, impact test (Charpy notched type V), microhardness and metallographic test. In addition to the non-destructive analysis visual and penetrating liquid. In general, the results for the process FCAW-CW, show themselves compatibles, regarding the process FCAW conventional, but some results showed smaller values of mechanical property. This fact much probably happened due the presence of discontinuities in the welded joint FCAW-CW. The microstructural characterization presented similar results to FCAW-CW and FCAW conventional for all energy levels studied.Item Acesso aberto (Open Access) Estudo da técnica de enchimento de chanfro do aço naval pelo processo GMAW-CW(Universidade Federal do Pará, 2011) BARBOZA FILHO, Lúcio da Silva; BRAGA, Eduardo de Magalhães; http://lattes.cnpq.br/4783553888547500In this work studied the operational viability and the characteristics economic and geometric of technique of the process welding GMAW -CW (additional alimentation of a cold wire) in comparison Gas Metal Arc Welding (GMAW). The alimentation system of cold wire was designed and adapted to welding gun GMAW. Used an electronic source of multiple processes adjusted in constant voltage and DC+, the gas shield was a mixture 75% Ar+25% CO2 and commercially pure CO2. The wire used was Class ER70S-6 with diameter of 1.2 mm for the electrode wire and 1.0 mm for the cold wire, the both wires were fed in heads independent. The input operating variables were the feed speed of wire energized at three levels, 4, 6 and 8 m / min and the wire feed speed in cold 50%, 60% and 70% of the wire feed speed energized . The welds were automated in simple deposited in the pushing direction and the positioning of the cold wire in a single level, Tandem in chamfer "U" steel plate ASTM 1020. The variables of response used were: superficial inspection of the cords, analysis of the geometry (width, penetration, reinforcement and dilution) and economic solder (melting rate, deposition rate, yield and operating cost). The results indicated that for surface analysis, using the AR25% CO2 gas to the surface of the strands were more homogeneous with respect to CO2 and less splash index for the analysis of economic characteristics, the process always GMAW-CW was superior to the conventional process, the operating costs the conventional process was lower, but without filling of the chamfer, which occurred with the use of GMAW-CW.Item Acesso aberto (Open Access) Estudo da viabilidade operacional do processo de soldagem MAG com alimentação adicional de arame frio(Universidade Federal do Pará, 2007-11-09) SÁBIO, Alberto Dias; BRAGA, Eduardo de Magalhães; http://lattes.cnpq.br/4783553888547500The present study shows experimental research of the weld concerning operational, economic and geometric viability as well as its superficial quality when using MAGCW (Metal Active Gas – Cold Wire), understood as: MAG welding process with nonenergized wire or cold wire. For the development of this research, welding MAG and MAG-CW processes have been used together with 1,2 mm of diameter consumable solid wires, class AWS E-70S6 and carbon dioxide pure, CO2, as protection gas with 17 l/min release for both processes. Automated welding was performed with electronic source adjusted in CC+, in constant tension mode, interfaced by a microcomputer. In both processes the welds were put on steel carbon samples SAE 1020, 76x155x12,7 mm size, with simple disposition passes, pulling and pushing the voltage arc. The MAG-CW process added cold wire on the electric arc region, fed by the Tandem and Twin sequential wire shape auxiliary system on plane position. The variables of influence were: Velocidade de Alimentação do Arame-Eletrodo, VAE, which varied in three levels: 6; 7,5 and 9 m/min, respectively, Velocidade de Alimentação do Arame-Fio, VAF, which also varied in three levels: 3; 4 and 5 m/min combined with VAE. Response variables for experimental evaluation were electric arc stability, economic features, geometric features and weld superficial quality. The results demonstrated satisfactory arc stability as well as high production concerning MAG process and also good superficial aspect of welds. Rising rates obtained by MAG-CW process demonstrates the superiority due to non-energized wire addition to the arc. Thus, the MAG-CW process, in comparison with MAG process, demonstrated superiority concerning the 57% in rate of fusion (RF) for the VAE of 6 m/min, 59 % for the VAE of 7,5 m/min and 53 % for the VAE in 9 m/min. it has also been observed that the same occurred with the rate of deposition (RD) increasing in all speed levels: 62% for the VAE in both conditions of 6 m/min and 7,5 m/min and in 57 % for the VAE in 9 m/min. The good performance in the increase of the taxes obtained by the process MAG-CW demonstrates advantage, with larger evidence in the acting of these characteristics, in function of the addition of cold wire to the arch.