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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Investigation of Environmental Effects on Intrinsic and Galvanic Corrosion of Mild Steel Weldment

Huang, Lei 25 July 2012 (has links)
No description available.
2

Resistência à corrosão e morfologia de junta soldada de inconel 625

Ramos, Leandro Brunholi January 2017 (has links)
As superligas de níquel apresentam boa combinação de resistência à corrosão e à oxidação, resistência mecânica, resistência à fadiga e resistência à fluência. Além disso, apresentam bom desempenho operacional em temperaturas próximas à temperatura de fusão da liga. Estudos apontam à possibilidade de se obter aço carbono revestido com a superliga de níquel Inconel 625 pelo processo de cladeamento e pelo processo de aspersão térmica. A presença de molibdênio na composição química do Inconel625 garante excelente resistência à corrosão por pites e por fresta, enquanto o nióbio confere alta soldabilidade e resistência à corrosão intergranular a essas ligas. O processo de soldagem é amplamente usado em processos industriais e pode ser aplicado em uma junta Inconel-Inconel, podendo modificar alguma propriedade dessa liga. O objetivo do presente trabalho é estudar uma junta soldada de Inconel 625, obtida pelo processo de soldagem por fusão a arco elétrico com o uso de eletrodo revestido ENiCrMo-3, quanto à morfologia estrutural, à dureza e à resistência à corrosão. A morfologia foi avaliada por microscopia óptica, por microscopia eletrônica de varredura e por espectroscopia de energia dispersiva. A propriedade mecânica de dureza foi avaliada a partir do perfil de microdureza Vickers ao longo da junta soldada Para avaliar a resistência à corrosão da junta soldada foram realizados os ensaios de polarização potenciodinâmica, reativação potenciodinâmica de varredura cíclica (norma ASTM G108-94), polarização potenciodinâmica cíclica e ensaio de imersão (norma ASTM G48-03). Também avaliou-se a susceptibilidade à corrosão por pites pela norma ASTM G61-86 a temperatura ambiente e a 90 ºC. Para a polarização potenciodinâmica, três diferentes eletrólitos foram empregados: 3,5% NaCl, 3,5% NaCl + 0,01 mol/L Na2S2O3 e 3,5% NaCl + 1M H2SO4. Os resultados obtidos mostraram que o metal de solda apresenta uma microestrutura dendrítica com precipitados de Nb e de Mo nas regiões interdendríticas. O desempenho quanto à resistência à corrosão foi satisfatório nos meios estudados, considerando as características dessas ligas. No entanto, a junta soldada apresentou maior suscetibilidade à corrosão por pites e à corrosão localizada comparativamente ao metal base. O filme passivo formado no metal base é melhor constituído do que o filme passivo formado no metal de solda. / Nickel superalloys show a good combination of corrosion, oxidation and creep resistance as well as mechanical and fatigue strength. These alloys can operate at temperatures close to their melting temperature. The Inconel 625 has desired characteristics for application in environments that require high corrosion resistance, such as in oil and gas exploitation. Some studies show the possibility of obtaining a coating of Inconel 625 onto carbon steel by the cladding process and by the thermal spray process. The molybdenum content in Inconel 625 ensures excellent resistance to pitting and crevice, while the niobium content gives high weldability to these alloys. The welding process is practically present in all industrial plants, so an Inconel-Inconel joint is unavoidable. However, the welding can lead to changes in the properties of these superalloys. Therefore, the present work aims to study the structural morphology, hardness and corrosion resistance of a welded joint of Inconel 625 obtained by the electric arc fusion welding process with ENICrMo-3 covered electrode. The morphology was evaluated by optical microscopy, scanning electron microscopy and dispersive energy spectroscopy. Hardness was studied by Vickers microhardness profile along the welded joint. In order to evaluate the corrosion resistance of the welded joint, the Potentiodynamic polarization, potentiodynamic cyclic sweep reactivation (ASTM G108-94), cyclic potentiodynamic polarization and immersion test (ASTM G48-03) were performed Also susceptibility to pitting corrosion was assessed by ASTM G61-86 at room temperature and at 90 ° C. Potentiodynamic polarization curves were performed in three different solutions to evaluate the corrosion resistance: 3.5% NaCl, 3.5% NaCl + 0.01 mol / L Na2S2O3 and 3.5% NaCl + 1M H2SO4 The results show that the weld metal has a dendritic microstructure with precipitates of Nb and Mo in the interdendritic regions. The corrosion performance in environments close to the environments of possible applications was satisfactory considering the resistance of these alloys, but the specific welded joint was more susceptibility to corrosion by pits and localized corrosion. The passive film formed in the base metal was better formed than the passive film formed in the welded metal.
3

Resistência à corrosão e morfologia de junta soldada de inconel 625

Ramos, Leandro Brunholi January 2017 (has links)
As superligas de níquel apresentam boa combinação de resistência à corrosão e à oxidação, resistência mecânica, resistência à fadiga e resistência à fluência. Além disso, apresentam bom desempenho operacional em temperaturas próximas à temperatura de fusão da liga. Estudos apontam à possibilidade de se obter aço carbono revestido com a superliga de níquel Inconel 625 pelo processo de cladeamento e pelo processo de aspersão térmica. A presença de molibdênio na composição química do Inconel625 garante excelente resistência à corrosão por pites e por fresta, enquanto o nióbio confere alta soldabilidade e resistência à corrosão intergranular a essas ligas. O processo de soldagem é amplamente usado em processos industriais e pode ser aplicado em uma junta Inconel-Inconel, podendo modificar alguma propriedade dessa liga. O objetivo do presente trabalho é estudar uma junta soldada de Inconel 625, obtida pelo processo de soldagem por fusão a arco elétrico com o uso de eletrodo revestido ENiCrMo-3, quanto à morfologia estrutural, à dureza e à resistência à corrosão. A morfologia foi avaliada por microscopia óptica, por microscopia eletrônica de varredura e por espectroscopia de energia dispersiva. A propriedade mecânica de dureza foi avaliada a partir do perfil de microdureza Vickers ao longo da junta soldada Para avaliar a resistência à corrosão da junta soldada foram realizados os ensaios de polarização potenciodinâmica, reativação potenciodinâmica de varredura cíclica (norma ASTM G108-94), polarização potenciodinâmica cíclica e ensaio de imersão (norma ASTM G48-03). Também avaliou-se a susceptibilidade à corrosão por pites pela norma ASTM G61-86 a temperatura ambiente e a 90 ºC. Para a polarização potenciodinâmica, três diferentes eletrólitos foram empregados: 3,5% NaCl, 3,5% NaCl + 0,01 mol/L Na2S2O3 e 3,5% NaCl + 1M H2SO4. Os resultados obtidos mostraram que o metal de solda apresenta uma microestrutura dendrítica com precipitados de Nb e de Mo nas regiões interdendríticas. O desempenho quanto à resistência à corrosão foi satisfatório nos meios estudados, considerando as características dessas ligas. No entanto, a junta soldada apresentou maior suscetibilidade à corrosão por pites e à corrosão localizada comparativamente ao metal base. O filme passivo formado no metal base é melhor constituído do que o filme passivo formado no metal de solda. / Nickel superalloys show a good combination of corrosion, oxidation and creep resistance as well as mechanical and fatigue strength. These alloys can operate at temperatures close to their melting temperature. The Inconel 625 has desired characteristics for application in environments that require high corrosion resistance, such as in oil and gas exploitation. Some studies show the possibility of obtaining a coating of Inconel 625 onto carbon steel by the cladding process and by the thermal spray process. The molybdenum content in Inconel 625 ensures excellent resistance to pitting and crevice, while the niobium content gives high weldability to these alloys. The welding process is practically present in all industrial plants, so an Inconel-Inconel joint is unavoidable. However, the welding can lead to changes in the properties of these superalloys. Therefore, the present work aims to study the structural morphology, hardness and corrosion resistance of a welded joint of Inconel 625 obtained by the electric arc fusion welding process with ENICrMo-3 covered electrode. The morphology was evaluated by optical microscopy, scanning electron microscopy and dispersive energy spectroscopy. Hardness was studied by Vickers microhardness profile along the welded joint. In order to evaluate the corrosion resistance of the welded joint, the Potentiodynamic polarization, potentiodynamic cyclic sweep reactivation (ASTM G108-94), cyclic potentiodynamic polarization and immersion test (ASTM G48-03) were performed Also susceptibility to pitting corrosion was assessed by ASTM G61-86 at room temperature and at 90 ° C. Potentiodynamic polarization curves were performed in three different solutions to evaluate the corrosion resistance: 3.5% NaCl, 3.5% NaCl + 0.01 mol / L Na2S2O3 and 3.5% NaCl + 1M H2SO4 The results show that the weld metal has a dendritic microstructure with precipitates of Nb and Mo in the interdendritic regions. The corrosion performance in environments close to the environments of possible applications was satisfactory considering the resistance of these alloys, but the specific welded joint was more susceptibility to corrosion by pits and localized corrosion. The passive film formed in the base metal was better formed than the passive film formed in the welded metal.
4

Resistência à corrosão e morfologia de junta soldada de inconel 625

Ramos, Leandro Brunholi January 2017 (has links)
As superligas de níquel apresentam boa combinação de resistência à corrosão e à oxidação, resistência mecânica, resistência à fadiga e resistência à fluência. Além disso, apresentam bom desempenho operacional em temperaturas próximas à temperatura de fusão da liga. Estudos apontam à possibilidade de se obter aço carbono revestido com a superliga de níquel Inconel 625 pelo processo de cladeamento e pelo processo de aspersão térmica. A presença de molibdênio na composição química do Inconel625 garante excelente resistência à corrosão por pites e por fresta, enquanto o nióbio confere alta soldabilidade e resistência à corrosão intergranular a essas ligas. O processo de soldagem é amplamente usado em processos industriais e pode ser aplicado em uma junta Inconel-Inconel, podendo modificar alguma propriedade dessa liga. O objetivo do presente trabalho é estudar uma junta soldada de Inconel 625, obtida pelo processo de soldagem por fusão a arco elétrico com o uso de eletrodo revestido ENiCrMo-3, quanto à morfologia estrutural, à dureza e à resistência à corrosão. A morfologia foi avaliada por microscopia óptica, por microscopia eletrônica de varredura e por espectroscopia de energia dispersiva. A propriedade mecânica de dureza foi avaliada a partir do perfil de microdureza Vickers ao longo da junta soldada Para avaliar a resistência à corrosão da junta soldada foram realizados os ensaios de polarização potenciodinâmica, reativação potenciodinâmica de varredura cíclica (norma ASTM G108-94), polarização potenciodinâmica cíclica e ensaio de imersão (norma ASTM G48-03). Também avaliou-se a susceptibilidade à corrosão por pites pela norma ASTM G61-86 a temperatura ambiente e a 90 ºC. Para a polarização potenciodinâmica, três diferentes eletrólitos foram empregados: 3,5% NaCl, 3,5% NaCl + 0,01 mol/L Na2S2O3 e 3,5% NaCl + 1M H2SO4. Os resultados obtidos mostraram que o metal de solda apresenta uma microestrutura dendrítica com precipitados de Nb e de Mo nas regiões interdendríticas. O desempenho quanto à resistência à corrosão foi satisfatório nos meios estudados, considerando as características dessas ligas. No entanto, a junta soldada apresentou maior suscetibilidade à corrosão por pites e à corrosão localizada comparativamente ao metal base. O filme passivo formado no metal base é melhor constituído do que o filme passivo formado no metal de solda. / Nickel superalloys show a good combination of corrosion, oxidation and creep resistance as well as mechanical and fatigue strength. These alloys can operate at temperatures close to their melting temperature. The Inconel 625 has desired characteristics for application in environments that require high corrosion resistance, such as in oil and gas exploitation. Some studies show the possibility of obtaining a coating of Inconel 625 onto carbon steel by the cladding process and by the thermal spray process. The molybdenum content in Inconel 625 ensures excellent resistance to pitting and crevice, while the niobium content gives high weldability to these alloys. The welding process is practically present in all industrial plants, so an Inconel-Inconel joint is unavoidable. However, the welding can lead to changes in the properties of these superalloys. Therefore, the present work aims to study the structural morphology, hardness and corrosion resistance of a welded joint of Inconel 625 obtained by the electric arc fusion welding process with ENICrMo-3 covered electrode. The morphology was evaluated by optical microscopy, scanning electron microscopy and dispersive energy spectroscopy. Hardness was studied by Vickers microhardness profile along the welded joint. In order to evaluate the corrosion resistance of the welded joint, the Potentiodynamic polarization, potentiodynamic cyclic sweep reactivation (ASTM G108-94), cyclic potentiodynamic polarization and immersion test (ASTM G48-03) were performed Also susceptibility to pitting corrosion was assessed by ASTM G61-86 at room temperature and at 90 ° C. Potentiodynamic polarization curves were performed in three different solutions to evaluate the corrosion resistance: 3.5% NaCl, 3.5% NaCl + 0.01 mol / L Na2S2O3 and 3.5% NaCl + 1M H2SO4 The results show that the weld metal has a dendritic microstructure with precipitates of Nb and Mo in the interdendritic regions. The corrosion performance in environments close to the environments of possible applications was satisfactory considering the resistance of these alloys, but the specific welded joint was more susceptibility to corrosion by pits and localized corrosion. The passive film formed in the base metal was better formed than the passive film formed in the welded metal.
5

Technologie výroby součásti těleso klapky / Technology of production part body of flap

Keprt, Michal January 2012 (has links)
The goal of the work is to design the manufacturing process of the flap closure body weldment, which is to be produced with company Sevcik - Water Equipment Ltd. First, the flap closure is modelled with the 3D SolidWorks, according to technical documentation from the company. Furthermore, the welded construction has been analysed. In this work, the body weldment production technology and complete fabrication technological process of individual components and final assembly is described. The technical and economic evaluations are calculated and the cost of production has been quantified. The production of individual components, machining costs, and other relevant costs are included into the consideration. These calculations predict a compatible production.
6

Effects of welding on energy dissipation in a watertight bulkhead

Erskine, Jon S. 06 1900 (has links)
Approved for public release, distribution is unlimited / Ensign, United States Navy
7

Analýza rizik procesu výroby svařence / Risk Analysis of a Weldment Production Process

Slámová, Aneta January 2020 (has links)
This diploma thesis is focused on the risk analysis of a selected production process of the company SIK METAL s.r.o. The work is divided into three parts, the theoretical part, then the analysis of the current state and the design part. The theoretical part defines the basic concepts that relate to risks. These theoretical findings are then applied in the second part of the work, where risk identification is performed using various types of analysis. Based on selected analyzes, proposals and recommendations are proposed in the final part of the diploma thesis. Proposals and recommendations contain financial quantifications.
8

Svařování rámů dveří pekařských pecí / Welding of baker´s furnaces casings

Šurýn, Michal January 2009 (has links)
This thesis made in the frame of my engineer studies is focused on technologic process of welding the door-case of bakery ovens. The project will suggest and rate used based material and then the choice of filler material, methods, welding characteristics and welding procedure. At the conclusion of the thesis is brief economical analysis.
9

Sestavení technologie součásti "skříň bezpřevodového výtahového stroje" pro TPV sériové výroby. / Solution technology of part "box of elevator" in batch production.

Bílek, Josef January 2010 (has links)
This diploma work deals with a production technology of a casing for a gear-less elevator in a batch production. A technological analysis of the product is done, including two grades of materials for castings or weldments. The technology of machining includes a NC program. Both production variants have been assessed and the optimal production according to selected criteria is recommended.
10

Kyvadlo čelisťového drtiče / Pendulum jaw crusher

Pitner, Jakub January 2013 (has links)
This master thesis deals with structural design of pendulum for single toggle jaw crusher DC 110x70 and consists of several main parts. The first part focuses on the processing of mineral materials, especially on the process of mechanical uncoupling. The second part compares main characteristics of single toggle and double toggle jaw crushers. The third part deals with the structural nodes for the crusher DC 110x70. Another part is consisted of two variants for the pendulum construction with a comparison of the advantages and disadvantages. For the selected variant is carried out the stress control using Finite element method (FEM) in the program I-DEAS. The last part focuses on the positioning an exit slit for designed pendulum.

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