Formulação do método dos elementos de contorno para análise de fratura / Boundary element formulations applied to fracture mechanics

Vicentini, Daniane Franciesca

25 August 2006

No contexto do método dos elementos de contorno, este trabalho apresenta comparativamente três formulações em distintos aspectos. Visando a análise de sólidos bidimensionais no campo da mecânica da fratura, primeiramente é estudada a equação singular ou em deslocamentos. Em seguida, a formulação hiper-singular ou em forças de superfície é avaliada. Por último, a formulação dual, que emprega ambas equações é analisada. Para esta análise, elementos contínuos e descontínuos são empregados, equações numéricas e analíticas com ponto fonte dentro e fora do contorno são testadas, usando aproximação linear. A formulação é inicialmente empregada a problemas da mecânica da fratura elástica linear e em seguida extendida a problemas não-lineares, especialmente o modelo coesivo. Exemplos numéricos diversos averiguam as formulações, comparando com resultados analíticos ou disponíveis na literatura. / In this work three boundary elment formulations applied to fracture mechanics are studied. Aiming the analysis of two-dimensional solids with emphasis on the crack problem, the first considered method is the one based on using displacement equations only (singular formulation). The second scheme discussed in this work is a formulation based on the use of traction equations (hyper-singular formulation). Finally the dual boundary element method that uses singular and hyper-singular equations is considered. The numerical schemes have been implemented using continuous and discontinuous linear boundary and crack elements. The boundary and crack integral were all carried out by using analytical expressions, therefore increasing the accuracy of the algebraic system obtained for each one of the studied schemes. The developed numerical programs were applied initially to elastic fracture mechanics and then extended to analyze cohesive cracks. Several numerical examples were solved to verify the accuracy of each one of the studied models, comparing the results with the analytical solutions avaliable in the literature.

boundary element method

coesivo

cohesive crack model

dual boundary element method

fratura

linear elastic fracture mechanics

mecânica da fratura elástica linear

método dos elementos de contorno

modelo dual

Contribuição ao estudo do fraturamento hidráulico utilizando o Método dos Elementos Finitos e a Mecânica da Fratura Elástico Linear / Contribution to study of fracking using the Finite Element Method and the Linear Elastic Fracture Mechanics

Silva, Jailto Antonio Prado da

24 April 2017

O fraturamento hidráulico é uma das técnicas de estimulação mais utilizadas pela indústria petrolífera. Esta técnica permite o aumento de produtividade de poços com baixo custo. Essa técnica consiste em induzir a propagação de fissuras nas rochas por meio de uma pressão externa. Assim, modelos para a simulação da propagação de fissuras em tais condições tornam-se de grande importância. O presente trabalho apresenta uma contribuição ao estudo da propagação de fissuras durante o fraturamento hidráulico. Um modelo numérico baseado no Método dos Elementos Finitos será apresentado. Teorias da mecânica da fratura elástico linear são aplicadas e a propagação de fissuras durante o faturamento hidráulico é modelada, tendo como processador das análises a ferramenta numérica FRANC 2D. Os resultados obtidos pelo modelo numérico são comparados com respostas apresentadas na literatura. Boa concordância é observada entre os resultados. Em especial, para os valores da pressão de quebra e o raio de reorientação. / Fracking is one of the most used stimulation techniques by the oil and gas industry. This technique allows the increase of productivity of wells with low cost. Consists in inducing the propagation of cracks in the rocks by means of an external pressure. Thus, models for simulating the propagation of cracks in such conditions become of great importance. This work presents a contribution to the study of the propagation of cracks during the fracking. A numerical model based on the Finite Element Method will be presented. Theories of linear elastic fracture mechanics are applied and the propagation of cracks during hydraulic billing is modeled, with the FRANC 2D numerical tool as the analysis processor. The results obtained by the numerical model are compared with answers presented in the literature. Good agreement is observed among the results. In particular, for the values of the breakdown pressure and the reorientation radius.

Finite Element Method

Fracking

FRANC 2D

FRANC 2D

Fraturamento hidráulico

Linear Elastic Fracture Mechanics

Mecânica da Fratura Elástico Linear

Método dos Elementos Finitos

Um novo algoritmo para modelagem de mecânica da fratura usando o método dos elementos de contorno. / A novel algorithm fot the modeling of fracture mechanics using the boundary element method.

Nunes, Marina Rocha Pinto Portela

04 March 2010

Este trabalho trata da análise de problemas da Mecânica da Fratura Elástica Linear (MFEL) utilizando o Método dos Elementos de Contorno (MEC). Esse método constitui uma poderosa e precisa técnica de análise numérica. A necessidade da discretização somente do contorno do modelo é um dos grandes atrativos do MEC. Na Mecânica da Fratura, o MEC é adequado pela própria natureza de sua formulação, a qual está baseada em soluções fundamentais. Dentre os parâmetros da MFEL, destaca-se o Fator de Intensidade de Tensão (FIT). No presente desenvolvimento, esse parâmetro é analisado numericamente pela técnica da correlação dos deslocamentos e por uma técnica alternativa a qual emprega o campo de tensões presente na extremidade da trinca. A direção do crescimento da trinca é analisada por meio do critério da Máxima Tensão Circunferencial. Os resultados obtidos são comparados à solução analítica e a outros resultados encontrados na literatura. / This work deals with the analysis of Linear Elastic Fracture Mechanics (LEFM) problems using the Boundary Element Method (BEM). This method is a powerful and accurate technique of numerical analysis. The need of discretization only of the boundary of the model is one of the major advantageous features of the BEM. In Fracture Mechanics, the BEM is adequate due to its intrinsic formulation, which is based on fundamental solutions. In the LEFM, the Stress Intensity Factors (SIF) is one of the most important parameters. In the present study, this parameter is numerically analyzed by the correlation displacement technique and by an alternative technique which considers the stress field at the crack tip. The direction of the crack growth is analyzed using the criterion of Maximum Circumferential Stress. The results are compared to the analytical solution and to other results of literature.

Boundary element method

Fator de intensidade de tensão

Linear elastic fracture mechanics

Método dos elementos de contorno

Stress intensity factor

Formulação do método dos elementos de contorno para análise de fratura / Boundary element formulations applied to fracture mechanics

Daniane Franciesca Vicentini

25 August 2006

No contexto do método dos elementos de contorno, este trabalho apresenta comparativamente três formulações em distintos aspectos. Visando a análise de sólidos bidimensionais no campo da mecânica da fratura, primeiramente é estudada a equação singular ou em deslocamentos. Em seguida, a formulação hiper-singular ou em forças de superfície é avaliada. Por último, a formulação dual, que emprega ambas equações é analisada. Para esta análise, elementos contínuos e descontínuos são empregados, equações numéricas e analíticas com ponto fonte dentro e fora do contorno são testadas, usando aproximação linear. A formulação é inicialmente empregada a problemas da mecânica da fratura elástica linear e em seguida extendida a problemas não-lineares, especialmente o modelo coesivo. Exemplos numéricos diversos averiguam as formulações, comparando com resultados analíticos ou disponíveis na literatura. / In this work three boundary elment formulations applied to fracture mechanics are studied. Aiming the analysis of two-dimensional solids with emphasis on the crack problem, the first considered method is the one based on using displacement equations only (singular formulation). The second scheme discussed in this work is a formulation based on the use of traction equations (hyper-singular formulation). Finally the dual boundary element method that uses singular and hyper-singular equations is considered. The numerical schemes have been implemented using continuous and discontinuous linear boundary and crack elements. The boundary and crack integral were all carried out by using analytical expressions, therefore increasing the accuracy of the algebraic system obtained for each one of the studied schemes. The developed numerical programs were applied initially to elastic fracture mechanics and then extended to analyze cohesive cracks. Several numerical examples were solved to verify the accuracy of each one of the studied models, comparing the results with the analytical solutions avaliable in the literature.

coesivo

fratura

mecânica da fratura elástica linear

método dos elementos de contorno

modelo dual

boundary element method

cohesive crack model

dual boundary element method

linear elastic fracture mechanics

Residual Stress Analysis and Fatigue Assessment of Welded Steel Structures

Barsoum, Zuheir

January 2008

This doctoral thesis is concerned with fatigue life of welded structures. Several topics related to fatigue of welded structures are treated such as; weld defects and their influence on fatigue performance of welded structures, fatigue life prediction using LEFM (Linear Elastic Fracture Mechanics), fatigue testing, welding simulation, residual stress prediction and measurement and their influence on fatigue life. The work that is reported in this doctoral thesis is part results of the Nordic R&D project QFAB (Quality and Cost of Fabricated Advanced Welded Structures) and the Swedish R&D project LOST (Light Optimized Welded Structures). One of the main objectives is to compare different welding processes for the fatigue performance, weld quality and gain understanding of the weld defects, their appearance in different welding processes and their effect on fatigue life. Another main objective is to study welding residual stresses and their effect on fatigue. The design rules are in some cases conservative and especially on the weld root sides the knowledge about the residual stress field may improve the life prediction. The aim is to develop simplified procedures for analysis of residual stresses, their relaxation and influence on fatigue life. Fatigue testing of Hybrid Nd: YAG laser/MAG and MAG welded (tandem arc solid wire, flux cored wire, tandem flux cored wire) non-load carrying cruciform joints was carried out. Four batches were produced, tested and the results were compared. The local weld geometry of the cruciform welded joints was measured and analyzed. Residual stress measurement was carried out close to the toe region using X-ray diffraction. Weld defects, in most cases cold laps, in the cracked specimens were measured. Further fatigue testing, weld defect assessment and residual stress and local weld geometry measurements were carried out on joints welded with flux cored and metal cored arc wires. Two-and three dimensional LEFM crack growth analysis were carried out in order to predict the influence of weld defects, local weld geometry and residual stresses. Residual stresses in multi-pass welded tube-to-plates were studied for two different tubular joint configurations; a three-pass single-U weld groove for maximum weld penetration and a two-pass fillet (no groove) welded tube-to-plates for minimum weld penetration. Torsion fatigue tests were performed in order to study crack propagation from the weld root. Mode III propagation from the lower and upper weld toe on the same tubular joints was also studied. Some tubes were stress relieved (PWHT) and some were fatigue tested with internal static pressure. A three dimensional finite element welding simulation of the multi-pass welded tubular joint was carried out. The calculated temperatures in the transient thermal analysis were compared with measured temperatures. The FE predicted residual stresses in the as-welded conditions were verified with hole drilling strain gage measurements. The residual stresses were used as internal stresses in the finite element model for the torsion fatigue simulation in order to study the cycle by cycle relaxation of the residual stresses in constant amplitude torsion loading. A two dimensional finite element welding simulation procedure was developed in order to predict welding residual stress. The predicted residual stresses were used together with a developed 2D LEFM subroutine to predict the fatigue life, crack path and the effect of residual stresses on weld root defects. The developed simulation subroutines were validated with results found in the literature. Residual stresses measurement, two-and three dimensional welding simulations were carried out in fillet welded joints in order to study the three dimensional effects of the welding process, boundary conditions and modelling technique on the formation of residual stresses. / QC 20100706

fatigue failure

welding

weld defects

welded joints

stress concentration

residual stress

linear elastic fracture mechanics

welding simulation

finite element analysis

fatigue crack growth.

Engineering mechanics

Teknisk mekanik

INFLUENCE OF TEMPERATURE AND STRESS RATIO ON FATIGUE AND FRACTURE RESPONSE OF HPDC AM60B MAGNESIUM ALLOY

Hossain, Md. Nur

19 August 2010

The mechanical behavior of a high pressure die cast AM60B Mg alloy is studied. Constant load amplitude fatigue tests were conducted at room, elevated and cold temperatures, with a stress ratio of R=0.1, and frequency of 30 Hz. The objective was to identify the possible effects of temperature on fatigue life cycle. In addition, fatigue crack propagation tests were conducted to ascertain the fatigue response of the alloy and determine its fatigue crack growth rate as a function of the applied stress ratio, experimentally, analytically and computationally, using Walker’s model. The results demonstrated that temperature had a significant influence on the fatigue life, and that the life increased at cold temperature but decreased at elevated temperature as compared to that evaluated at room temperature. In this study, the limit for applicability of LEFM was established for AM60B magnesium alloy. In addition, fatigue crack propagation test results were used to evaluate the coefficients of the Paris model.

The Role of First Order Surface Effects in Linear Elastic Fracture Mechanics

KIM, CHUN IL

Unknown Date

No description available.

First Order Surface Effects

linear elastic fracture mechanics

anti-plane deformations

plane deformations

interface cracks

size-dependent stress distributions

Um novo algoritmo para modelagem de mecânica da fratura usando o método dos elementos de contorno. / A novel algorithm fot the modeling of fracture mechanics using the boundary element method.

Marina Rocha Pinto Portela Nunes

04 March 2010

Este trabalho trata da análise de problemas da Mecânica da Fratura Elástica Linear (MFEL) utilizando o Método dos Elementos de Contorno (MEC). Esse método constitui uma poderosa e precisa técnica de análise numérica. A necessidade da discretização somente do contorno do modelo é um dos grandes atrativos do MEC. Na Mecânica da Fratura, o MEC é adequado pela própria natureza de sua formulação, a qual está baseada em soluções fundamentais. Dentre os parâmetros da MFEL, destaca-se o Fator de Intensidade de Tensão (FIT). No presente desenvolvimento, esse parâmetro é analisado numericamente pela técnica da correlação dos deslocamentos e por uma técnica alternativa a qual emprega o campo de tensões presente na extremidade da trinca. A direção do crescimento da trinca é analisada por meio do critério da Máxima Tensão Circunferencial. Os resultados obtidos são comparados à solução analítica e a outros resultados encontrados na literatura. / This work deals with the analysis of Linear Elastic Fracture Mechanics (LEFM) problems using the Boundary Element Method (BEM). This method is a powerful and accurate technique of numerical analysis. The need of discretization only of the boundary of the model is one of the major advantageous features of the BEM. In Fracture Mechanics, the BEM is adequate due to its intrinsic formulation, which is based on fundamental solutions. In the LEFM, the Stress Intensity Factors (SIF) is one of the most important parameters. In the present study, this parameter is numerically analyzed by the correlation displacement technique and by an alternative technique which considers the stress field at the crack tip. The direction of the crack growth is analyzed using the criterion of Maximum Circumferential Stress. The results are compared to the analytical solution and to other results of literature.

Fator de intensidade de tensão

Método dos elementos de contorno

Boundary element method

Linear elastic fracture mechanics

Stress intensity factor

Contribuição ao estudo do fraturamento hidráulico utilizando o Método dos Elementos Finitos e a Mecânica da Fratura Elástico Linear / Contribution to study of fracking using the Finite Element Method and the Linear Elastic Fracture Mechanics

Jailto Antonio Prado da Silva

24 April 2017

O fraturamento hidráulico é uma das técnicas de estimulação mais utilizadas pela indústria petrolífera. Esta técnica permite o aumento de produtividade de poços com baixo custo. Essa técnica consiste em induzir a propagação de fissuras nas rochas por meio de uma pressão externa. Assim, modelos para a simulação da propagação de fissuras em tais condições tornam-se de grande importância. O presente trabalho apresenta uma contribuição ao estudo da propagação de fissuras durante o fraturamento hidráulico. Um modelo numérico baseado no Método dos Elementos Finitos será apresentado. Teorias da mecânica da fratura elástico linear são aplicadas e a propagação de fissuras durante o faturamento hidráulico é modelada, tendo como processador das análises a ferramenta numérica FRANC 2D. Os resultados obtidos pelo modelo numérico são comparados com respostas apresentadas na literatura. Boa concordância é observada entre os resultados. Em especial, para os valores da pressão de quebra e o raio de reorientação. / Fracking is one of the most used stimulation techniques by the oil and gas industry. This technique allows the increase of productivity of wells with low cost. Consists in inducing the propagation of cracks in the rocks by means of an external pressure. Thus, models for simulating the propagation of cracks in such conditions become of great importance. This work presents a contribution to the study of the propagation of cracks during the fracking. A numerical model based on the Finite Element Method will be presented. Theories of linear elastic fracture mechanics are applied and the propagation of cracks during hydraulic billing is modeled, with the FRANC 2D numerical tool as the analysis processor. The results obtained by the numerical model are compared with answers presented in the literature. Good agreement is observed among the results. In particular, for the values of the breakdown pressure and the reorientation radius.

FRANC 2D

Fraturamento hidráulico

Mecânica da Fratura Elástico Linear

Método dos Elementos Finitos

Finite Element Method

Fracking

FRANC 2D

Linear Elastic Fracture Mechanics

Effect Of Material Non-Linearity Of Adherends On Fracture Behaviour Of Bimaterial Interface Cracks

Muthukumar, R

06 1900

No description available.

Fracture Mechanics

Adhesives

Bimaterial Interfaces

Linear Elastic Fracture Mechanics (LEFM)

Elasto-Plastic Fracture Mechanics

Bimatenal Interface Crack

J-Integral

Applied Mechanics