Aspectos metalúrgicos de revestimentos em dutos depositados com a superliga de níquel ERNiCrMo-4 pelos processos MIG convencional e MIG com adição de arame frio

Este trabalho estuda o perfil metalúrgico de revestimentos em dutos depositados pelos processos MIG C e MIG AF. A indústria petroquímica, e outras que utilizam dutos como meio de transporte de seus insumos, depara-se com um grande desafio: como aumentar a vida útil desses dutos em um ambiente severo de trabalho. No caso específico da petroquímica, os dutos servem como meio de transporte para petróleo e gás, que são produtos extremamente agressivos às paredes internas desses tubos que sofrem degradação por corrosão causada, principalmente, pela composição química, pressão e temperatura desses produtos. Nesse contexto a soldagem de revestimentos realizada com ligas à base de Níquel, torna-se uma excelente opção para a construção, reparo e manutenção de equipamentos cuja aplicação seja voltada a ambientes severos de trabalho, tornando possível aperfeiçoar as características requeridas, como por exemplo, a resistência à corrosão. É nesse cenário que surge o mote para a realização desta pesquisa, baseada em trabalhos que indicam que o processo de soldagem MIG/MAG com o da adição de arame frio possui a finalidade de avaliar as características metalúrgicas do revestimento em dutos depositados pelo processo derivativo MIG convencional – MIG-C e MIG com adição de arame frio – MIG AF – utilizando a liga de Níquel ERNiCrMo-4 em dutos de aço carbono. As soldas foram depositadas em dutos de diâmetro de 228,6 mm, formando uma camada de revestimento interno de quatro passes, divididos em três segmentos da circunferência do duto, em três diferentes energias de soldagem: 1,1; 0,9 e 0,7 kJ/mm. Desses segmentos retiraram-se corpos de prova dos dutos para a produção das amostras. Após a metalografia, realizada nas amostras, seguiu-se com a análise e caracterização ao microscópio óptico, microscópio eletrônico de varredura e ensaio de microdureza. Os revestimentos apresentaram excelente qualidade superficial para todos os pacotes operacionais aplicados na obtenção das soldas. As análises das regiões estudadas: metal de base; zona parcialmente misturada e zona termicamente afetada, mostraram-se compatíveis com os da literatura estudada, tanto para o MIG com adição de arame frio, quanto para o convencional. Na ZTA, foram observados valores de Tungstênio em torno de 1,0%, o aumento dos níveis de dureza foi creditado a esse fato. Os resultados de microdureza indicaram que para ambos os casos, MIG C e MIG AF, nas 4 regiões analisadas ocorreram de maneira semelhante, sendo a região da ZTA a que apresentou maiores valores na faixa de 400 a 500 HV, enquanto que nas demais regiões a faixa ficou entre 250 a 350 HV. Os resultados indicam que o processo com arame frio, MIG AF, mostrou-se tão eficiente quanto o convencional, MIG C. A energia de soldagem aumentou a diluição de Fe no metal de solda. Precipitados ricos em Mo e Cr foram encontrados no metal de solda.

Viabilidade técnica e econômica de povoamentos de eucalyptus spp. Sob diferentes espaçamentos visando a produção de biomassa para energia

Pós-graduação em Ciência Florestal - FCA

Utilization of teflon and aluminum oxide for wheel cleaning in Minimum Quantity Lubrication (MQL) grinding

Researches concerning cooling-lubrication optimization in grinding have been conducted to contribute to a more sustainable process. An alternative to flood coolant is minimum quantity lubrication (MQL), which spray oil droplets in a compressed air jet. However, problems related to wheel cleaning were reported, due to wheel loading by a mixture of chips and oil, resulting in worsening of surface quality. This work aims to evaluate the viability of Teflon and aluminum oxide for wheel cleaning, compared to MQL without cleaning and MQL with cleaning by compressed air, through the following output variables: surface roughness, roundness, wheel wear, grinding power and acoustic emission. Vickers microhardness measurements and optical microscopy were also carried out. The results showed that both materials were efficient in cleaning the wheel, compared to MQL without cleaning, but not as satisfactory as compressed air. Much work is to be done in order to select the right material for wheel cleaning.

Verificação da dureza de gessos em função da compatibilidade com materiais de moldagem à base de borracha

Currently the most widespread material used in dies is gypsum that together with its simple technique has very satisfactory mechanical, chemical and physical properties. However, its compactibility with the impression materials can compromise the die surface quality. In our work, we studies the hardness of the two gypsum types: Type III (die stone) and type IV (improved die stone), as well as the influence of the contact with three types of impression materials: polymerized silicone for condensation (Xantopren), polysulfide (Permlastic) and polymerized silicone by addition (Provil). As comparison parameter gypsum was used in contact with a glass surface…(Complete abstract click electronic access below)

Qualidade da madeira e da celulose de clones de Eucalyptus spp. de diferentes densidades

Pós-graduação em Ciência Florestal - FCA

Lixamento do Pinus elliotti com carbeto de silício e óxido de aluminio

The Sanding is a complex process involving many variables that affect the quality of the part produced, working mainly in the timber industry in the production of panels (MDF, MDP, HDF, etc...) and furniture. However, these industries use the sanding process empirically, not optimizing it. The aim of this study was to compare the behavior of sandpaper white aluminum oxide (OA-white) and Black silicon carbide (SiC-black), analyzing variables in the process as: strength, power, emission, vibration, wear particle size of sanding, and its consequences on the surface finish of the workpiece. Made the process of plane grinding samples of Pinus elliottii, processed in parallel to the fibers, which were sanded with sandpaper grain OA white and black 3-SiC abrasive conditions (new, moderately eroded and severely eroded) grain sizes in 3 (80, 100, and 120 mesh). 6 replicates was performed for each condition tested. Each trial was captured output variables of the sanding process: strength, power, emission and vibration. With two stages totaling 108 trials. After the sanded samples, it has the same surface quality by raising the surface roughness Ra. Through experiment, it can be concluded that abrasives OA-white tended to have higher strength, power, emissions and less vibration in the sanding process, compared to the SiC-black. However, surface finish exhibited similar to the particle size of 80 to 100 mesh, worn abrasive conditions. However, the particle size of 120 mesh, obtained by the roughness of sandpaper OA-bank was higher compared to SiC-black to all conditions of sandpaper due to its toughness

Estudo da deformação heterogênea no ensaio do anel de atrito

The plastic deformation is widely used in the metallurgical market due to its positive factors such as low prices and high speed production. Forming process products are obtained in high quality, both surface quality and mechanical properties. Friction is an importante factor in metal forming. Friction study in metal forming can be accomplished indirectly, such as the ring test of friction. Two samples of different materials being mild steel and copper alloy were used. The results showed the influence of friction in the flow behavior of the deformation of the second phase, as evidenced by standard metallography. It is observed that in the outer regions of the ring, plastic deformation occured in the radial direction. In the central region of the disc deformation occured in the direction of compression and the inner region of the ring flux lines showed a significant deformation in the radial direction towards the center of the ring

Efeitos dos parâmetros de usinagem no acabamento superficial de materiais cerâmicos a verde

Pós-graduação em Engenharia Mecânica - FEB

Análise do acabamento superficial e força de corte no torneamento de alumina a verde

In experimental conditions, cutting forces were studied during turning of green alumina billets, including their correlation with surface aspects of the workpiece. The correlation between cutting power and the removal rate are important parameters for defining the design of ceramic products, since inadequate parameters can produce excessive surface damage to the workpiece. This study examined the forces obtained during turning of alumina workpieces with 99.8% purity in their green state, by means of a three-point dynamometer, evaluating the cutting, feed and depth forces, using a cermet tool under constant machining conditions. Variables were compared with the forces, including surface finish, tool wear and temperature during machining. In the study, it was found that the depth of cut had no significant effect on the surface quality, and the cutting speed and feed influencing the finish. However, preliminary tests for selecting the cutting conditions showed that unsuitables cutting speeds and feeds generate severe damage to the workpiece surface. The best condition was 1.00 mm depth of cut, and the forces increasedfor with each pass performed, with the feed force the variable with greatest increases in relation to the cutting and depth forces, and wear of the cutting tool directly influenced the surface finish, generated by the highly abrasive nature of the alumina particles of the green compact. It is emphasized that the alumina in its green state showed high abrasive effect on the cutting tool during the turning process and the surface finishing of the green workpiece had a direct influence on the sintered workpiece.

Ultra-precision face grinding with constant pressure, lapping kinematics, and SiC grinding wheels dressed with overlap factor

Several machining processes have been created and improved in order to achieve the best results ever accomplished in hard and difficult to machine materials. Some of these abrasive manufacturing processes emerging on the science frontier can be defined as ultra-precision grinding. For finishing flat surfaces, researchers have been putting together the main advantages of traditional abrasive processes such as face grinding with constant pressure, fixed abrasives for two-body removal mechanism, total contact of the part with the tool, and lapping kinematics as well as some specific operations to keep grinding wheel sharpness and form. In the present work, both U d-lap grinding process and its machine tool were studied aiming nanometric finishing on flat metallic surfaces. Such hypothesis was investigated on AISI 420 stainless steel workpieces U d-lap ground with different values of overlap factor on dressing (Ud=1, 3, and 5) and grit sizes of conventional grinding wheels (silicon carbide (SiC)=#800, #600, and #300) applying a new machine tool especially designed and built for such finishing. The best results, obtained after 10 min of machining, were average surface roughness (Ra) of 1.92 nm, 1.19-μm flatness deviation of 25.4-mm-diameter workpieces, and mirrored surface finishing. Given the surface quality achieved, the U d-lap grinding process can be included among the ultra-precision abrasive processes and, depending on the application, the chaining steps of grinding, lapping, and polishing can be replaced by the proposed abrasive process.

A study on the viability of minimum quantity lubrication with water in grinding of ceramics using a hybrid-bonded diamond wheel

With the currently strict environmental law in present days, researchers and industries are seeking to reduce the amount of cutting fluid used in machining. Minimum quantity lubrication is a potential alternative to reduce environmental impacts and overall process costs. This technique can substantially reduce cutting fluids in grinding, as well as provide better performance in relation to conventional cutting fluid application (abundant fluid flow). The present work aims to test the viability of minimum quantity lubrication (with and without water) in grinding of advanced ceramics, when compared to conventional method (abundant fluid flow). Measured output variables were grinding power, surface roughness, roundness errors and wheel wear, as well as scanning electron micrographs. The results show that minimum quantity lubrication with water (1:1) was superior to conventional lubrication-cooling in terms of surface quality, also reducing wheel wear, when compared to the other methods tested.

Utilização de material alternativo para a obtenção e caracterização de biomodelos, por meio da técnica de impressão 3DPRINTER

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Tool wear evaluations in friction stir processing of commercial titanium Ti–6Al–4V

This research addresses the application of friction stir welding (FWS) of titanium alloy Ti–6Al–4V. Friction stir welding is a recent process, developed in the 1990s for aluminum joining; this joining process is being increasingly applied in many industries from basic materials, such as steel alloys, to high performance alloys, such as titanium. It is a process in great development and has its economic advantages when compared to conventional welding. For high performance alloys such as titanium, a major problem to overcome is the construction of tools that can withstand the extreme process environment. In the literature, the possibilities approached are only few tungsten alloys. Early experiments with tools made of cemented carbide (WC) showed optimistic results consistent with the literature. It was initially thought that WC tools may be an option to the FSW process since it is possible to improve the wear resistance of the tool. The metallographic analysis of the welds did not show primary defects of voids (tunneling) or similar internal defects due to processing, only defects related to tool wear which can cause loss of weld quality. The severe tool wear caused loss of surface quality and inclusions of fragments inside the joining, which should be corrected or mitigated by means of coating techniques on tool, or the replacement of cemented carbide with tungsten alloys, as found in the literature.

Ermittlung optimaler Bauteilorientierung zur Verbesserung der Prozessplanung in der CAD/RP-Kette

Ein wesentlicher Einflussfaktor auf die Bauteilqualität und Prozessgüte bei der generativen Herstellung von Prototypen ist die Orientierung der Bauteile. So kann eine optimierte Ausrichtung den Treppenstufeneffekt (Staircasing) sowie den Curling-Effekt minimieren und somit die Oberflächenqualität bzw. die Bauteilgenauigkeit erhöhen oder die Berücksichtigung von Formtoleranzen (z.B. Rundheit) ermöglichen. Des Weiteren können verschiedene Bauteilausrichtungen unterschiedliche Ausführungen von Stützkonstruktionen bewirken und die Bauteilstabilität beeinflussen. Diese und ähnliche Wechselwirkungen gilt es bei der Auswahl einer geeigneten Bauteilorientierung für RP-Anwendungen zu berücksichtigen. Dieser Vortrag stellt ein generisches System vor, welches unter Berücksichtigung der genannten Einflussfaktoren sowie weiterer Effekte eine rechnergestützte Optimierung der Bauteilorientierung durchführt. Neben der weiterhin notwendigen Erfahrung der Anwender zur endgültigen Festlegung der fallabhängigen Bauteilausrichtung liefert das System Vorschläge auf Basis einer intensiven Geometrieanalyse, die eine entsprechende Datenaufbereitung im Rahmen der Prozessplanung unterstützen.

„Pulverbettbasiertes Strahlschmelzen – neue Forschungserkenntnisse“

Auf dem Weg vom Rapid Prototyping zum Rapid Manufacturing ist erhöhte Prozesssicherheit sowie die Beherrschung verfahrensspezifischer Phänomene notwendig, um die immer weiter steigenden und konkreteren Bauteilanforderungen zu erfüllen. Dazu wurden diverse im SLM-Prozess auftretende Effekte untersucht. Basis der vorgestellten Entwicklungen sind grundlegende Erkenntnisse zur Oberflächenqualität von SLM-Bauteilen und Einflussgrößen auf Dichte und mechanische Eigenschaften der Bauteile verschiedener Werkstoffe. Ergebnis sind verschiedene Weiterentwicklungen der Standardbelichtungsstrategie, wodurch etwa Eigenspannungseffekte und Spritzerbildung positiv beeinflusst werden können.