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Navegando por Assunto "Cold wire"

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    Análise microestrutural e de propriedades mecânicas de revestimentos soldados por SAW e GMAW-CW
    (Universidade Federal do Pará, 2016-01) CARVALHO, Márcio Corrêa; SOUZA, José Antônio da Silva; http://lattes.cnpq.br/6157348947425968; BRAGA, Eduardo de Magalhães; http://lattes.cnpq.br/4783553888547500
    Welded deposited overlays have been widely used in various areas of the mining industry reltaed to wear. The welding processes as Metal Inert/Active Gas (MIG/MAG) or Gas Metal Arc Welding (GMAW), Gas Metal Arc Welding with Cold Wire (GMAW-CW) and Submerged Arc Welding (SAW) have been studied focusing on the application of wear resistant overlay's. The use of processes with high productivity and exibility that allow changes in chemical composition as SAW is viable, and promising in the case of GMAW-CW. The present study investigated the microstructure and mechanical properties of wear resistant overlays obtained by the SAW and GMAW-CW processes on primary chromium carbides overlay's (CCO's) and ferritic second phase overlays (Fe-SF). Conventional techniques of structural characterization as optical microscopy and optical emisson spectroscopy (OES) and advanced as X ray di raction (XRD) and electron backscatter di raction (EBSD), identied the main phase and defect formation mechanisms in these overlays. Characterization techniques of mechanical property such as microhardness and unconventional as the compact impact abrasion test (CIAT), were also presented as important tools, in the study of welded deposited wear resistant overlays. The Fe-SF and CCO showed an increase in mass loss over time CIAT testing. The CCO had the lowest mass loss rate, 48.1 % less than the Fe-SF higher cold wire rate (rAF) and 61.4 % less than the Fe-SF lower rAF. The mass loss rate raised as rAF increased. The mass loss rate for Fe-SF lower rAF is 34.6 % higher than the largest rAF Fe-SF. The mass loss rate compared to rAF, behaved in an inverse manner with respect to hardness, i.e. the higher the hardness the lower mass loss rate.
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    Influência dos procedimentos e modos de transferência no processo MAG na redução de deformações em painéis de estruturas navais
    (Associação Brasileira de Soldagem, 2013-11) CABRAL, Tarcio dos Santos; BRAGA, Eduardo de Magalhães; MENDONÇA, Everton Augusto Maciel; SCOTTI, Américo
    The Growth in the Brazilian shipbuilding industry brought on numerous problems in the production line. Some of these problems are related to the manufacturing process, welding process, due to residual stress and distortions. In the present paper, the influence of the welding procedure (sequence and direction of welding and the use of back weld) was studied. Different welding processes with different transfer modes (GMAW-CC, GMAW-TT and GMAW-CW) were also used. These changes were made to observe the influences on the amplitude of the distortions. All the welds were made using the ER70S-6 electrode and pure CO2 as a shielding gas with the short circuit transfer mode. The results showed that the most important variable is the direction of welding, which is related to the level of restriction of the panels welded. The effect of the welding sequence presented on the values of distortion produced were minor. The panels produced using the back welding procedure presented small values of distortion however, the procedure showed to be inefficient. It was also observed that the level of distortion for the processes GMAW-CC and GMAW-STT showed similar values. On the other hand the values of distortion in the panel welded using the GMAW-CW process presented the lowest values.
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