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51	[en] VERIFICATION OF THE (DELTA)KEFF HYPOTHESIS AS THE DRIVING FORCE FOR FATIGUE CRACK GROWTH / [pt] VERIFICAÇÃO DA HIPÓTESE DO (DELTA)KEF COMO A FORÇA MOTRIZ DA PROPAGAÇÃO DE TRINCAS POR FADIGA JULIAN ANDRES ORTIZ GONZALEZ 09 December 2021 (has links) [pt] Medindo a rigidez de corpos de prova em testes de propagação de trinca por fadiga, Elber identificou que a ponta da trinca só está totalmente aberta durante uma parte do ciclo de carregamento, e nomeou o carregamento onde a trinca abre totalmente de carga de abertura Pab. Baseado nisso, Elber assumiu que o dano à frente da trinca era induzido apenas pela fração do carregamento acima da Pab, propondo que a força motriz na propagação de trincas por fadiga é a gama do fator de intensidade de tensões efetivo (delta)Kef. Para verificar esta hipótese, neste trabalho foram examinados diferentes cenários em testes de propagação de trinca por fadiga. Primeiramente, em corpos DC(T) de aço AISI 1020 e em corpos DC(T) e C(T) de alumínio 6351-T6 foi propagada uma trinca com (delta)K e Kmax quase constantes, medindo Pab em campo próximo e em campo distante, com extensômetros e com um sistema 3D de correlação digital de imagens (DIC). Depois, usando novos corpos DC(T) de aço e de alumínio, foi propagada uma trinca com (delta)K e Kmax quase constantes, antes e depois de um evento de sobrecarga, medindo a Pab ao longo do teste, em campo próximo e campo distante. Cabe salientar que nesses testes as espessuras dos corpos de prova foram projetadas para que a trinca propagasse em tensão plana e em deformação plana. Finalmente, em testes de propagação de trinca com (delta)K e Kmax quase constantes, em corpos DC(T) de aço e de alumínio foi medido o campo de deformação à frente da ponta da trinca com um sistema de microscópio estéreo DIC, para analisar o comportamento dentro da zona plástica, medindo também a Pab com os métodos mencionados anteriormente. Dos resultados dos testes três comportamentos foram particularmente relevantes. Nos primeiros testes de propagação com deltaK e Kmax quase constantes, a razão Kab/Kmax diminuía enquanto a trinca propagava com uma taxa constante. Nos testes de sobrecarga o valor mínimo de (delta)Kef estava defasado em relação ao valor mínimo de taxa de propagação (da/dN). Já nos testes onde foi medido o campo deformação com o sistema de microscópio estéreo DIC, a deformação 0.1mm à frente da ponta da trinca mostrou que existia dano para cargas abaixo da Pab. Portanto, estes resultados não podem ser explicados pela hipótese de Elber, e contestam o (delta)Kef como a força motriz na propagação de trincas por fadiga. / [en] Measuring the stiffness of a fatigue-cracked plate during its loading cycle, Elber discovered that this crack only completely opened after reaching the crack opening load Pop. Based on this, Elber assumed that the damage ahead of the crack is induced by the loading part above the Pop. In this way, he proposed that the range of the effective stress intensity factor (delta)Keff is the driving force in fatigue crack growth. In order to verify this hypothesis, this study investigated different scenarios in fatigue crack growth tests. For this, DC(T) specimens of AISI 1020 steel, and DC(T) and C(T) specimens of 6351-T6 aluminum were tested. The fatigue crack growth tests were performed under quasi-constant K and Kmax conditions. The Pop measurements in the near and far field were obtained from strain gage readings and 3D Digital Image Correlation (DIC) analysis. In addition, simple variable amplitude tests were performed in steel and aluminum DC(T) specimens. A single tensile overload was introduced in the fatigue crack growth experiments under quasi-constant (delta)K and Kmax conditions, also measuring the Pop throughout the test in the near and the far field. It is important to note that the thickness of the specimens was designed to perform a crack propagation in plane stress and plane strain conditions. Moreover, near tip strain measurements in steel and aluminum DC(T) specimens were obtained with a stereo microscope DIC system, to analyze the behavior within the plastic zone, also measuring the Pop with the methods previously mentioned. From the experimental results, three behaviors were particularly relevant. In the first fatigue crack growth tests with quasi-constant {(delta)K, Kmax} conditions, the ratio Kop/Kmax decreased as the crack propagates under a constant rate. In the fatigue crack growth tests with overload application, the minimum value of (delta)Keff was lagged in relation to the minimum value of the propagation rate (da/dN). Finally, in the strain measurements performed with the stereo microscope DIC system, the de-formation at 0.1mm ahead of the crack tip showed the existence of damage in load values below Pop. Therefore, these results cannot be explained by Elber s hypothesis, and question the (delta)Keff as the driving force in fatigue crack growth. [pt] PROPAGACAO DE TRINCAS POR FADIGA [pt] CARGA DE ABERTURA DE TRINCA [pt] FECHAMENTO DE TRINCAS [en] FATIGUE CRACK GROWTH [en] CRACK OPENING LOAD [en] CRACK CLOSURE
52	Near-threshold Fatigue of Adhesive Joints: Effect of Mode Ratio, Bond Strength and Bondline Thickness Azari, Shahrokh 05 September 2012 (has links) The main objective of the project was to establish a fracture-mechanics energy-based approach for the design of structural adhesive joints under cyclic loading. This required understanding how an adhesive system behaved near its fatigue threshold, and how the key factors affected this behavior in a fresh undegraded joint. The investigated factors were mode ratio (phase angle), substrate material, surface treatment and surface roughness (both affecting the bond strength), bondline thickness and load ratio. It was first required to understand how the adhesive system behaved under quasi-static loading by examining a fracture mechanics-based design approach for adhesive systems with different substrate materials and geometries. Experiments were initially performed to characterize the strength of aluminum and steel adhesive systems based on the fracture envelope, critical strain energy release rate as a function of the mode ratio. Ultimate failure loads of aluminum and steel adhesive joints, having different overlap end conditions and different geometries were then experimentally measured. These values were compared with the failure loads extracted from the fracture envelope. Considering the toughening behavior of the adhesive in the fracture mechanics analyses, a very good agreement (average of 6%) was achieved between the predictions and experiments for all types of overlap end conditions and geometries. Different fatigue threshold testing approaches, which are commonly used in the literature or suggested by the ASTM standard, were evaluated for the cracked and intact fillet joints. Based on the experimental and analytical studies, the most appropriate technique for fatigue testing and characterization of adhesive systems was suggested. Comparing the mixed-mode near-threshold behavior of different adhesive systems with the fracture behavior and fatigue mode-I and mixed-mode high crack growth rates showed the high sensitivity of the mixed-mode near-threshold fatigue to the subtle changes in the interfacial bond strength. In order to make a baseline for the design of adhesive joints under cyclic loading, similar to the previous fracture tests and following the energy-based approach, fatigue behavior was characterized as a function of the loading mode ratio for aluminum and steel adhesive joints. The effect of substrate material, surface treatment, bondline thickness, surface roughness and fatigue testing load ratio on the near-threshold fatigue behavior of adhesives joints was evaluated experimentally. The experimental observations were then explained using finite element modeling. To generalize the conclusions, the majority of experiments and studies covered a broad range of crack growth rates, as low as fatigue threshold and as high as 10-2 mm/cycle. Having understood the significant testing and design parameters, an adhesive system can be designed based on a safe cyclic load that produces an insignificant (for automotive industry) or reasonably low but known crack growth rate (for aerospace industry). Adhesive joints Fatigue Fracture Threshold Fatigue crack growth rate Mode ratio Bond strength Bondline thickness Surface roughness Load ratio Crack path 0548
53	Skaleninvarianz und deren Bedeutung für die Modellierung der Ermüdungsrißausbreitung in Aluminiumlegierungen Bergner, Frank 21 September 2004 (has links) (PDF) Die Arbeit ruht auf zwei Säulen: Die eine besteht in der Aufbereitung, Erprobung und konsequenten Anwendung von Methoden der Skaleninvarianzanalyse, die andere in einem breiten Fundus an experimentellen Daten für aushärtbare Aluminiumknetlegierungen in der Form dünner Bleche, die unter gleichartigen, streng kontrollierten Bedingungen gewonnen worden sind. Als methodische Weiterentwicklungen sind die Fundierung des Umgangs mit der algebraischen Korrelation zwischen Vorfaktor und Exponent einer beliebigen Potenzgleichung, die Übertragung des Ansatzes der finiten Skaleninvarianz auf die Ermüdungsrißausbreitung sowie die Kombination der Idee eines geschwindigkeitsbestimmenden Schrittes mit der Dimensionsanalyse der umgebungsabhängigen Ermüdungsrißausbreitung bis hin zur Kartierung der geschwindigkeitsbestimmenden Schritte zu nennen. Auf experimenteller Seite wurde eine Datensammlung mit gemessenen Streubändern für die Ermüdungsrißausbreitung und das Verfestigungsverhalten von 39 Orientierungen bzw. Auslagerungszuständen von Aluminiumlegierungen aufgebaut. Diese Sammlung wird durch ausgewählte Messungen der Ermüdungsrißausbreitung im schwellenwertnahen Bereich, Restfestigkeitsversuche, Rißschließmessungen, Rauheitsmessungen an Bruchflächen, frequenzabhängige Messungen zum Umgebungseinfluß sowie Untersuchungen an drei Stählen und einer Magnesiumlegierung sinnvoll ergänzt. Auf der Basis der Meßdaten und der Analysemethoden wurde der Werkstoffeinfluß auf die Ermüdungsrißausbreitung in dünnen Blechen aus Aluminiumknetlegierungen bei Belastung mit konstanter Amplitude im Gültigkeitsbereich der linear-elastischen Bruchmechanik untersucht. Dabei wurden folgende Größen als wesentliche Einflußfaktoren identifiziert: - für die Gruppenzugehörigkeit: der Kohärenz- und Ordnungsgrad der festigkeitsbestimmenden Ausscheidungen und die resultierende Gleitverteilung, - für den gemeinsamen Vorfaktor der Legierungen der Gruppe 1: die elastischen Eigenschaften und das Spannungsverhältnis (Translation der Paris-Geraden), - für die Exponenten der Legierungen der Gruppe 1: 0,2%-Dehngrenze, athermischer Verfestigungsparameter, Probendicke und Kc-Wert als dimensionsloses Potenzprodukt (Rotation der Paris-Geraden), - für die Legierungen der Gruppe 2: das Ausmaß der Rißablenkung und eine bleibende Mode-II-Komponente der Rißöffnungsverschiebung, - für den Umgebungseinfluß der Legierung 6013 T6: Frequenz und Schwingbreite des Spannungsintensitätsfaktors. Die Diskussion umfaßt den wertenden Vergleich der experimentellen Ergebnisse mit Befunden und Modellen aus der Literatur, Erklärungsansätze für die Ursachen der Einflußnahme der wesentlichen Parameter sowie einen Modellansatz für die Legierungen der Gruppe 1 auf der Basis einer Mischungsregel. Dabei hatte sich erwiesen, daß keines der aus der Literatur bekannten Modelle alle Befunde richtig wiedergibt. Einige der ausgearbeiteten Erklärungsansätze bedürfen der zukünftigen Vertiefung. / The work is based upon two essentials: the first one is the preparation and application of techniques of scale invariance analysis, the second one consists in a database of experimental results for heat-treatable thin-sheet wrought aluminium alloys obtained under uniform conditions. Progress with respect to methodology was achieved regarding, first, the algebraic correlation between sets of coefficients and exponents of any power law, second, the transfer of the concept of finite scale invariance to the phenomenon of fatigue crack growth (FCG), and third, the combination of the ideas of a rate-controlling step and dimensional analysis of environmental-assisted FCG including the mapping of rate-controlling steps. In the experimental part, a database containing both measured scatterbands of FCG and strengthening characteristics for several orientations and aging conditions of aluminium alloys amounting to a total of 39 different material conditions was established. This database was supplemented with results of selected measurements of near-threshold FCG rates, residual strength, crack closure, roughness of fatigue cracks, and frequency-dependent environmental-assisted FCG as well as investigations of three plain-carbon steels and a magnesium alloy. Based on these prerequisites, the influence of the material on the FCG behaviour of thin-sheet wrought aluminium alloys under constant-amplitude loading was investigated within the limits of validity of linear-elastic fracture mechanics. The following influence factors were identified to be essential: The assignment of alloys to one out of two groups is mainly determined by the degrees of coherency and order of the strength-controlling precipitates and the resulting type of slip distribution. The normalized-Paris-law coefficient for the first group is mainly dependent on the modulus of elasticity and the stress ratio. The Paris-law exponents for the first group are dominated by a dimensionless power monomial of the 0.2% proof stress, the athermal strengthening coefficient, sheet thickeness and the critical stress intensity factor. The retardation of the FCG rates of alloys of the second group relative to the first group is mainly determined by the amount of crack deflection and by a residual mode-II component of crack opening displacement. Finally, the environment-assisted FCG for aluminium alloy 6013 T6 reveals a coupled dependence on loading frequency and cyclic stress intensity factor. The discussion covers the evaluation of the results in relation to observations and models from the literature, the explanation of the modes of operation of the major influence factors and a model based on a mixing rule for the alloys of the first group. It turned out that there is not any model that reflects all of the observations simultaneously. Some of the ideas presented require to be worked out in more detail. Aluminiumlegierungen Dimensionsanalyse Ermüdungsrissausbreitung Schadenstoleranz Skaleninvarianz Umgebungseinfluss aluminium alloys damage tolerance dimensional analysis environmental effects fatigue crack growth scale invariance ddc:620 rvk:UQ 7400 Aluminiumlegierung Ermüdungsriss Rissausbreitung Selbstähnlichkeit
54	[en] PREDICTION OF THE SHORT CRACKS EFFECT ON STRUCTURAL COMPONENTS / [pt] PREVISÃO DO EFEITO DAS TRINCAS CURTAS EM COMPONENTES ESTRUTURAIS MARCO VINICIO GUAMAN ALARCON 14 April 2014 (has links) [pt] A resistência a fadiga dos elementos estruturais pode ser limitada pela presença de trincas curtas, as quais podem passar despercebidas em inspeções não-destrutivas tradicionais. Para modelar o comportamento dessas trincas pode-se utilizar o tamanho característico das trincas curtas ao, proposto por El Haddad, Topper e Smith (ETS), que permite ajustar adequadamente os dados experimentais do diagrama de Kitagawa-Takahashi. Partindo do modelo ETS, neste trabalho se apresenta o modelo do Gradiente de Tensão (GT), desenvolvido para prever o efeito das trincas curtas que nascem em pontas de entalhes. Este modelo reconhece que trincas podem ser facilmente geradas por fadiga em entalhes afiados, que introduzem efeitos de concentração de tensão elevados nas suas pontas. Mas devido ao alto gradiente de tensão que atua em torno das pontas desses entalhes, as trincas curtas que deles emanam também podem parar de crescer por fadiga após terem se propagado por uma pequena distância, tornando-se assim trincas não-propagantes que podem ser toleradas em serviço. Corpos de prova tipo C(T) modificados foram projetados especificamente para estudar a geração e o crescimento inicial dessas trincas em ensaios de fadiga, e usados para verificar experimentalmente as previsões do modelo proposto. / [en] The fatigue strength of structural elements may be limited by the presence of short cracks, which can not be detected with traditional nondestructive inspections. The behavior of these cracks can be modeled using the characteristic size of short cracks a0, proposed by El Haddad, Topper and Smith (ETS), which allows one to properly adjust experimental data from the Kitagawa-Takahashi diagram. Based on the ETS model, this work presents the Stress Gradient (SG) model, developed to predict the effect of short cracks that grow from the notch tips. This model considers that cracks are easily generated due to fatigue in sharp notches, which introduce high stress concentration effects at their tips. Because of the high stress gradient acting at these notch tips, the short cracks can also stop to grow by fatigue after having propagated through a small distance, thereby becoming non-propagating cracks that can be tolerated in service. C(T) modified specimens were specifically designed to study the generation and initial growth of these cracks in fatigue tests, and used to experimentally verify the predictions of the proposed model. [pt] FADIGA [en] FATIGUE [pt] TRINCA CURTA [en] SHORT CRACK [pt] LIMIAR DE PROPAGACAO [en] FATIGUE CRACK GROWTH THRESHOLD [pt] VIDA A FADIGA [pt] MODELAGEM DAS TRINCAS CURTAS
55	Fatigue life evaluation of A356 aluminum alloy used for engine\'s cylinder head / Avaliação da vida em fadiga de liga de alumínio A356 utilizada em cabeçote de motor Angeloni, Mauricio 27 April 2011 (has links) In order to characterize mechanical components used in high responsibility applications, the knowledge of chemical composition and results from regular experiments such as traction, impact and hardness tests is important, but not sufficient. They cannot supply the necessary information that permit anticipating, in a reliable way, the components behavior in actual working conditions. As an example, there are engines cylinder head submitted to mechanical and thermal tensions that are relatively high during the in service use, and very high in same very demanding condition. During long run times and any failure in the cooling and/or lubrication the temperature may reach 300ºC. This temperature variation causes thermal shocks which may generate cracks and/or a wide ranging of plastic deformation in regions close to the pistons. Even not considering the thermal shock effects caused by failure, even so, a short number of start-up and shutdown cycles of engine, are considered the main cause of small cracks. This indicates that the generation of cracks in cylinder head may be considered as low cycle thermomechanical fatigue problem. Another problem is the microstructure heterogeneity in the component due to the casting process, leading to different physical and mechanical properties in the same piece. Besides the presence of porosity generated by gas bubbles and voids of solidification, which may be as great as short crack, reducing the nucleation life and changing the problems focus for the fatigue crack growth. The purpose of this study was to determine the isothermal and thermomechanical fatigue property through low cycle fatigue, as well as the fatigue crack growth, relaxation, microestrutural characterization and modeling of mechanical behavior by finite element for the aluminum alloy employed in the manufacture of engine cylinder head by the national automotive industry. Isothermal fatigue experiments were carried out at temperature of 120ºC and 280ºC and the thermomechanical performed in phase between the temperatures of 120ºC and 280ºC. The relaxation experiments were performed at some temperatures with trapezoidal wave loading, whereas the experiments of fatigue crack growth carried out at temperatures of 120ºC, 200ºC and 280ºC for sine and trapezoidal wave loading in displacement and load control. The microstructure analysis was also made in the specimens after the fatigue test by optical microscopy and scanning electron microscopy SEM. The results of these experiments showed that the casting defects and materials inhomogeneities, coupled long run times in high temperatures and loads, are a critical factor in the component performance. These results help us to establish accurate models for life prediction of the engine cylinder head. / Para caracterizar componentes usados em aplicações de alta responsabilidade não basta apenas conhecer a composição química e os resultados de ensaios de tração, impacto e dureza, pois estes podem não fornecer os subsídios necessários que permitam prever, de maneira confiável, o comportamento dos componentes nas condições reais de trabalho. Exemplo disto são os cabeçotes de motor automotivos, submetidos a tensões térmicas e mecânicas relativamente altas durante seu uso normal e altíssimo em condições extremas. Durante longos tempos de funcionamento e eventuais falhas na refrigeração e ou lubrificação a temperatura pode chegar a valores próximos de 300ºC. Esta variação de temperaturas provoca choques térmicos que podem gerar trincas e/ou uma grande quantidade de deformação plástica em regiões próximas aos pistões. Desconsiderando a presença de choques térmicos provocados por falhas, ainda assim, uma pequena quantidade de ciclos de acionamento e parada do motor, é considerada como os principais causadores de pequenas trincas. Isso indica que o surgimento de trincas em cabeçotes de motor deve ser considerado um problema de fadiga termomecânica de baixo ciclo. Outro problema é a heterogeneidade microestrutural no componente devido ao processo de fundição, levando a propriedades mecânicas e físicas diferentes em uma mesma peça. Além da presença de porosidade gerada por bolhas de gás e vazios de solidificação, que podem adquirir tamanho tal que se aproximem de pequenas trincas, diminuindo a vida para a nucleação e assim mudando o foco do problema para o de propagação de trinca por fadiga. A proposta deste trabalho foi a de determinar as propriedades de fadiga isotérmica e termomecânica através de ensaios de fadiga de baixo ciclo, bem como as propriedades de propagação de trinca por fadiga, relaxação, caracterização microestrutural e modelagem do comportamento mecânico por elementos finitos para a liga de alumínio utilizada na fabricação de cabeçotes de motores automotivos pela indústria nacional. Os ensaios de fadiga isotérmica foram realizados nas temperaturas de 120ºC e 280ºC e os ensaios termomecânicos foram realizados em fase entre as temperaturas de 120ºC e 280ºC. Os ensaios de relaxação foram realizados em várias temperaturas com carregamento de onda trapezoidal, enquanto que os ensaios de propagação de trinca por fadiga foram realizados nas temperaturas de 120ºC, 200ºC e 280ºC para carregamentos de onda senoidal e trapezoidal em controle de carga e de deslocamento. Foi feita também análise microestrutural nos corpos de prova, após os ensaios de fadiga, por microscopia óptica e por microscopia eletrônica de varredura MEV. Os resultados destes ensaios mostraram que os defeitos de fundição e a falta de homogeneidade no material, aliados a longos tempos de exposição a carregamentos e em altas temperaturas, constituem um fator crítico no desempenho do componente. Estes resultados ajudarão a estabelecer modelos precisos de previsão de vida para os cabeçotes de motor. Aluminum alloys Cabeçote de motor Cylinder head Elementos finitos Fadiga isotérmica Fadiga termomecânica Fatigue crack growth Finite element Isothermal fatigue Ligas de alumínios Propagação de trinca por fadiga Thermomechanical fatigue
56	Resistência à fadiga de tubo API 5L X65 cladeado e soldado circunferencialmente com eletrodos de Inconel® 625 / Fatigue strength of API 5L X65 cladded pipe girth welded with Inconel® 625 electrodes Santos, Elielson Alves dos 06 April 2016 (has links) As recentes descobertas de petróleo e gás na camada do Pré-sal representam um enorme potencial exploratório no Brasil, entretanto, os desafios tecnológicos para a exploração desses recursos minerais são imensos e, consequentemente, têm motivado o desenvolvimento de estudos voltados a métodos e materiais eficientes para suas produções. Os tubos condutores de petróleo e gás são denominados de elevadores catenários ou do inglês \"risers\", e são elementos que necessariamente são soldados e possuem fundamental importância nessa cadeia produtiva, pois transportam petróleo e gás natural do fundo do mar à plataforma, estando sujeitos a carregamentos dinâmicos (fadiga) durante sua operação. Adicionalmente, um dos problemas centrais à produção de óleo e gás das reservas do Pré-Sal está diretamente associado a meios altamente corrosivos, tais como H2S e CO2. Uma forma mais barata de proteção dos tubos é a aplicação de uma camada de um material metálico resistente à corrosão na parte interna desses tubos (clad). Assim, a união entre esses tubos para formação dos \"risers\" deve ser realizada pelo emprego de soldas circunferenciais de ligas igualmente resistentes à corrosão. Nesse contexto, como os elementos soldados são considerados possuir defeitos do tipo trinca, para a garantia de sua integridade estrutural quando submetidos a carregamentos cíclicos, é necessário o conhecimento das taxas de propagação de trinca por fadiga da solda circunferencial. Assim, neste trabalho, foram realizados ensaios de propagação de trinca por fadiga na região da solda circunferencial de Inconel® 625 realizada em tubo de aço API 5L X65 cladeado, utilizando corpos de prova do tipo SEN(B) (Single Edge Notch Bending) com relações entre espessura e largura (B/W) iguais a 0,5, 1 e 2. O propósito central deste trabalho foi de obter a curva da taxa de propagação de trinca por fadiga (da/dN) versus a variação do fator de intensidade de tensão (ΔK) para o metal de solda por meio de ensaios normatizados, utilizando diferentes técnicas de acompanhamento e medição da trinca. A monitoração de crescimento da trinca foi feita por três técnicas: variação da flexibilidade elástica (VFE), queda de potencial elétrico (QPE) e análise de imagem (Ai). Os resultados mostraram que as diferentes relações B/W utilizadas no estudo não alteraram significantemente as taxas de propagação de trinca por fadiga, respeitado que a propagação aconteceu em condições de escoamento em pequena escala na frente da trinca. Os resultados de propagação de trinca por fadiga permitiram a obtenção das regiões I e II da curva da/dN versus ΔK para o metal de solda. O valor de ΔKlim obtido para o mesmo foi em torno de 11,8 MPa.m1/2 e os valores encontrados das constantes experimentais C e m da equação de Paris-Erdogan foram respectivamente iguais a 1,55 x10-10 [(mm/ciclo)/(MPa.m1/2)m] e 4,15. A propagação de trinca no metal de solda deu-se por deformação plástica, com a formação de estrias de fadiga. / Recent oil and gas discoveries in the Pre-Salt layer represent a huge exploration potential in Brazil, however, the technological challenges for the exploitation of these mineral resources are immense and therefore have motivated the development of studies looking for efficient methods and materials for their productions. The oil and gas pipellines, called risers, are elements that are necessarily welded and have fundamental importance in the production chain, since they transport oil and natural gas from the sea bed to the platforms and are subject to dynamic loads (fatigue) during operation. Additionally, one of the central problems in the production of oil and gas in the Pre-Salt reserves is directly associated with a highly corrosive media, such as H2S and CO2. A cheaper way to protect the pipelines from these medias is applying a protective layer of a corrosion resistant metal on the inner diameter of these pipes, creating a cladded pipe. Thus, a joining process of these pipes to form the risers must be carried out by the use of girth welds with a corrosion resistance material similar to the clad metal. As the welded structures are seen as potential location of \"crack like\" defects, to ensure the structural integrity of such component when subjected to repetitive loading conditions, it is necessary to know the fatigue crack growth rates for the girth weld. Therefore, in this work it was carried out fatigue crack propagation tests in the weld region of an API 5L X65 cladded pipe with Inconel® 625, girth welded using Inconel® 625 electrodes. From the welded region, Single Edge Notch Bending specimens, SEN(B), were removed with different thickness and width ratios (B/W= 0.5, 1, and 2). From the fatigue tests, the crack propagation rates (da/dN) as function of the variation of the stress intensity factor (ΔK), were determined for the weld metal, using different crack size measurement techniques: the elastic compliance (EC), electric potential drop (EPD) and image analysis (IA). The results showed that the different B/W ratios used in study did not modified significantly the fatigue crack growth rates, considering that crack propagation took place under small scale yielding conditions. The results of fatigue crack growth tests allowed to obtain the regions I and II of da/dN x ΔK curves for the weld metal. The ΔKth value obtained for the weld metal was around 11,8 MPa.m1/2 and the found values of the experimental constants C and m of Paris-Erdogan\'s equation were respectively equal to 1,55 x10-10 [(mm/cycle)/( MPa.m1/2)m] and 4.15. The micromechanism of fatigue crack growth took place by plastic deformation, with the formation of fatigue striations. Aço API X65 API X65 steel Clad pipe Fatigue crack growth Girth weld Inconel® 625 Inconel® 625 alloy Propagação de trinca por fadiga Solda circunferencial Tubo cladeado
57	Estudo da propagação da trinca por fadiga em um aço de alta resistência e baixa liga após o processo de soldagem por centelhamento / Fatigue crack growth behavior of a flash-welded microalloyed steel Henrique Varella Ribeiro 22 August 2011 (has links) O presente trabalho visa avaliar a microestrutura em chapas de um aço de alta resistência e baixa liga após soldagem por centelhamento e quantificar a resistência ao crescimento de trincas por fadiga ao longo do cordão de solda e da zona termicamente afetada, comparando-a ao comportamento do material base. O aço em estudo, recentemente desenvolvido pela Companhia Siderúrgica Nacional sob a designação RD480, foi fornecido na forma de chapas com 5,0 mm de espessura e soldado pelo processo de centelhamento na divisão de rodas e chassis da IOCHPE-MAXION. A avaliação microestrutural do aço após o processo de soldagem por centelhamento foi realizada nas regiões do metal de base, zona termicamente afetada e metal de solda, utilizando microscopia ótica com diferentes ataques químicos e microscopia eletrônica de varredura. A caracterização mecânica foi realiza com ensaio de tração, teste de dureza Vickers e ensaio de propagação de trincas por fadiga. Para este último foram adotados corpos-de-prova do tipo compacto C(T) e carregamento senoidal de amplitude constante com frequencia 10 Hz e razão de tensão R= 0,1 e as curvas obtidas deste ensaio foram avaliadas em relação a dois modelos matemáticos, o de Paris-Erdogan e o exponencial. Após o ensaio de propagação de trincas por fadiga, as superfícies dos corpos-de-prova foram avaliadas por microscopia eletrônica de varredura. Os resultados encontrados permitiram correlacionar a resistência mecânica e a taxa de crescimento da trinca com as características microestruturais resultantes do processo de soldagem. / This study aims to evaluate the microstructure of a high strength, low alloy (HSLA) steel after flash welding and to quantify the resistance to fatigue crack growth along the weld and heat affected zone, comparing it to the behavior of the base material. The steel under study, recently developed by the Companhia Siderúrgica Nacional under the designation RD480, was provided in the form of plates with 5.0 mm in thickness and welded by IOCHPE-MAXION, division of wheels and chassis. The microstructural evaluation of the steel after the flash welding process was performed at the base metal, heat affected zone and weld metal, using optical microscopy with different chemical attacks and scanning electron microscopy (SEM). The mechanical characterization was performed by means of tensile test, Vickers hardness measurement and fatigue crack growth (FCG) test. Compact Tension C(T) specimens were chosen for the fatigue tests, and the loading was sinusoidal with constant amplitude, frequency of 10 Hz and stress ratio R = 0.1. The crack propagation test results were summarized in terms of FCG rate (da/dN) versus stress intensity factor range (?K) curves. In order to describe the FCG behavior, two models were tested: the conventional Paris equation and a new exponential equation developed for materials showing non-linear FCG behavior. The fracture surfaces of the fatigued specimens were examined via SEM in the secondary electrons regime. The results allowed correlating the mechanical strength and crack growth rate with the microestrutural characteristics resulting from the welding process. Aço de alta resistência e baixa liga Análise microestrutural Propagação de trincas por fadiga Soldagem por centelhamento Fatigue Crack Growth Flash Welding Microalloyed Steels Microstructural Analysis
58	Estudo da propagação da trinca por fadiga em um aço microligado com diferentes condições microestruturais / Fatigue Crack Growth behavior of a Microalloyed steel with distinct microtructural conditions Nascimento, Denise Ferreira Laurito 30 July 2010 (has links) Aços microligados pertencem à classe dos aços ARBL contendo baixa ou média quantidade de carbono e pequena adição de elementos de liga tais como Mn, Nb, Mo, V e Ti. A variedade microestrutural desses aços pode ser obtida dependendo da temperatura de conformação, taxa de resfriamento e composição química. Os tratamentos intercríticos e isotérmicos produzem microestruturas multifásicas com diferentes quantidades de ferrita, martensita, bainita e austenita retida. A presença de diferentes fases nestes materiais, com morfologias distintas, pode afetar de modo significativo seu comportamento mecânico, afetando, por exemplo, o fechamento da trinca e resultando em mudanças na taxa de crescimento da mesma. O objetivo deste trabalho é avaliar as propriedades de tração e a resistência ao crescimento da trinca por fadiga de um aço microligado RD 480 com 0.08%C-1, 5%Mn (p), correlacionando-as com suas características microestruturais. Esse aço, desenvolvido recentemente pela CSN (Companhia Siderúrgica Nacional), é considerado promissor como alternativa para substituir o aço de baixo carbono utilizado em componentes de rodas na indústria automotiva. Distintas condições microestruturais foram obtidas por meio de tratamentos térmicos seguidos de resfriamento em água. As condições de tratamento intercrítico e têmpera simples foram escolhidas para se avaliar a resistência à propagação da trinca por fadiga. Os resultados dos ensaios foram sintetizados em termos da taxa de crescimento da trinca (da/dN) versus a variação do Fator Intensidade de Tensão (_K) no ciclo de carregamento. Para descrever o comportamento das trincas foram utilizados dois modelos: a equação convencional de Paris e um novo modelo exponencial que mostra o comportamento não linear das curvas de fadiga. Os resultados mostraram que uma microestrutura combinando ferrita de aspecto acicular e fases duras (martensita/bainita) resultou em menores taxas de crescimento da trinca. No entanto, a melhor combinação entre as propriedades de tração (limite de escoamento, resistência e ductilidade) e fadiga foi obtida com uma microestrura bifásica contendo martensita dispersa em uma matriz ferrítica. Observou-se uma transição nas curvas de crescimento da trinca para todas as condições tratadas termicamente e, por conta disto, as curvas das condições microestruturais bifásicas e multifásicas foram melhores modeladas quando divididas em duas regiões. As superfícies de fratura dessas amostras, bem como o caminho percorrido pela trinca, foram analisados via MEV e MO. / Microalloyed steels are a class of HSLA steels with low or medium carbon content and small additions of alloy elements such as Mn, Nb, Mo, V and Ti. A variety of microstructures in microalloyed steels can be obtained depending on the deformation temperature, cooling rate and chemical composition. Heat treatments and isothermal transformation on these materials, with various temperatures and holding times, produce multiphase microstructures with different amounts of ferrite, martensite, bainite and retained austenite. These different phases, with distinct morphologies, are determinant of the mechanical behavior of the steel and can, for instance, affect crack closure or promote crack shielding, thus resulting in changes on its propagation rate under cyclic loading. The aim of this study is to evaluate the tensile properties and resistance to fatigue crack growth in a microalloyed steel RD 480 with 0.08%C-1, 5% Mn (wt), correlating with their microstructural characteristics. This steel, recently developed by CSN (Companhia Siderurgica Nacional), is being considered as a promising alternative to replace low carbon steel in wheel components for the automotive industry. Distinct microstructural conditions were obtained by means of heat treatments followed by water quench. The intercritical treatment and quenching conditions were chosen to evaluate the strength to crack propagation. The crack propagation test results were summarized in terms of FCG rate (da/dN) versus stress intensity factor range (?K) curves. In order to describe the FCG behavior, two models were tested: the conventional Paris equation and a new exponential equation developed for materials showing non-linear FCG behavior. The results showed that a microstructure combining aspect acicular ferrite and hard phases (martensite / bainite) resulted in lower rates of crack growth. However, the best combination between the tensile properties (yield stress, tensile strength and ductility) and fatigue was obtained with a dual phase steel microstructure containing martensite dispersed in a ferrite matrix. It was observed a transition in the crack growth curves for all heat treated conditions, so the curves of the dual and multiphase microstructural conditions were better modeled by dividing them in two regions. The fracture planes of the fatigued specimens, as well as the crack path, were examined using a scanning electron microscope (SEM) and optical micrography (OM). Aço microligado Análise microestrutural Fatigue crack growth Heat treatment Microalloyed Steels Microstructural Analysis Propagação de Trincas por fadiga Propriedades de tração Tensile Properties Tratamento térmico
59	Estudo da propagação da trinca por fadiga em um aço de alta resistência e baixa liga após o processo de soldagem por centelhamento / Fatigue crack growth behavior of a flash-welded microalloyed steel Ribeiro, Henrique Varella 22 August 2011 (has links) O presente trabalho visa avaliar a microestrutura em chapas de um aço de alta resistência e baixa liga após soldagem por centelhamento e quantificar a resistência ao crescimento de trincas por fadiga ao longo do cordão de solda e da zona termicamente afetada, comparando-a ao comportamento do material base. O aço em estudo, recentemente desenvolvido pela Companhia Siderúrgica Nacional sob a designação RD480, foi fornecido na forma de chapas com 5,0 mm de espessura e soldado pelo processo de centelhamento na divisão de rodas e chassis da IOCHPE-MAXION. A avaliação microestrutural do aço após o processo de soldagem por centelhamento foi realizada nas regiões do metal de base, zona termicamente afetada e metal de solda, utilizando microscopia ótica com diferentes ataques químicos e microscopia eletrônica de varredura. A caracterização mecânica foi realiza com ensaio de tração, teste de dureza Vickers e ensaio de propagação de trincas por fadiga. Para este último foram adotados corpos-de-prova do tipo compacto C(T) e carregamento senoidal de amplitude constante com frequencia 10 Hz e razão de tensão R= 0,1 e as curvas obtidas deste ensaio foram avaliadas em relação a dois modelos matemáticos, o de Paris-Erdogan e o exponencial. Após o ensaio de propagação de trincas por fadiga, as superfícies dos corpos-de-prova foram avaliadas por microscopia eletrônica de varredura. Os resultados encontrados permitiram correlacionar a resistência mecânica e a taxa de crescimento da trinca com as características microestruturais resultantes do processo de soldagem. / This study aims to evaluate the microstructure of a high strength, low alloy (HSLA) steel after flash welding and to quantify the resistance to fatigue crack growth along the weld and heat affected zone, comparing it to the behavior of the base material. The steel under study, recently developed by the Companhia Siderúrgica Nacional under the designation RD480, was provided in the form of plates with 5.0 mm in thickness and welded by IOCHPE-MAXION, division of wheels and chassis. The microstructural evaluation of the steel after the flash welding process was performed at the base metal, heat affected zone and weld metal, using optical microscopy with different chemical attacks and scanning electron microscopy (SEM). The mechanical characterization was performed by means of tensile test, Vickers hardness measurement and fatigue crack growth (FCG) test. Compact Tension C(T) specimens were chosen for the fatigue tests, and the loading was sinusoidal with constant amplitude, frequency of 10 Hz and stress ratio R = 0.1. The crack propagation test results were summarized in terms of FCG rate (da/dN) versus stress intensity factor range (?K) curves. In order to describe the FCG behavior, two models were tested: the conventional Paris equation and a new exponential equation developed for materials showing non-linear FCG behavior. The fracture surfaces of the fatigued specimens were examined via SEM in the secondary electrons regime. The results allowed correlating the mechanical strength and crack growth rate with the microestrutural characteristics resulting from the welding process. Aço de alta resistência e baixa liga Análise microestrutural Fatigue Crack Growth Flash Welding Microalloyed Steels Microstructural Analysis Propagação de trincas por fadiga Soldagem por centelhamento
60	Thermo-mechanical fatigue crack growth of a polycrystalline superalloy Adair, Benjamin Scott 23 May 2011 (has links) A study was done to determine the temperature and load interaction effects on the fatigue crack growth rate of polycrystalline superalloy IN100. Temperature interaction testing was performed by cycling between 316°C and 649°C in blocks of 1, 10 and 100 cycles. Load interaction testing in the form of single overloads was performed at 316°C and 649°C. After compiling a database of constant temperature, constant amplitude FCGR data for IN100, fatigue crack growth predictions assuming no load or temperature interactions were made. Experimental fatigue crack propagation data was then compared and contrasted with these predictions. Through the aid of scanning electron microscopy the fracture mechanisms observed during interaction testing were compared with the mechanisms present during constant temperature, constant amplitude testing. One block alternating temperature interaction testing grew significantly faster than the non-interaction prediction, while ten block alternating temperature interaction testing also grew faster but not to the same extent. One hundred block alternating testing grew slower than non-interaction predictions. It was found that as the number of alternating temperature cycles increased, changes in the gamma prime morphology (and hence deformation mode) caused changes in the environmental interactions thus demonstrating the sensitivity of the environmental interaction on the details of the deformation mode. SEM fractography was used to show that at low alternating cycles, 316°C crack growth was accelerated due to crack tip embrittlement caused by 649°C cycling. At higher alternating cycles the 316°C cycling quickly grew through the embrittled crack tip but then grew slower than expected due to the possible formation of Kear-Wilsdorf locks at 649°C. Overload interaction testing led to full crack retardation at 2.0x overloads for both 316°C and 649°C testing. 1.6x overloading at both temperatures led to retarded crack growth whereas 1.3x overloads at 649°C created accelerated crack growth and at 316°C the crack growth was retarded. Scanning electron microscopy IN100 Temperature and load interactions Polycrystals Materials Fatigue Heat resistant alloys Alloys Alloys Thermal properties Alloys Fatigue

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