Global ETD Search

1	A continuing investigation into the stress field around two parallet-edge cracks in a finite body Gilman, Justin Patrick 17 February 2005 (has links) The goal of this research was to extend the investigation into a method to represent and analyze the stress field around two parallel edge cracks in a finite body. The Westergaard-Schwarz method combined with the local collocation method was used to analyze different cases of two parallel edge cracks in a finite body. Using this method a determination of when two parallel edge cracks could be analyzed as isolated single edge cracks was determined Numerical experimentation was conducted using ABAQUS. It was used to obtain the coordinate and stress information required in the local collocation method. The numerical models were created by maintaining one crack at a fixed length while varying the length of the second crack as well as the separation distance of the two cracks. The results obtained through the local collocation method were compared with the finite element obtained J-Integrals to verify the accuracy of the results. The results obtained in the analysis showed that the major factor in determining when the second cracks stress field has to be considered was the crack separation distance. It was found that a reduction in the second cracks length did not have a significant effect on overall stress intensity factors of the fixed crack. A larger change in the opening mode stress intensity factor can be seen by varying the crack separation distance. As well as seeing a steady reduction in shear mode stress intensity factors as the crack separation was increased. The results showed that after a certain crack separation distance the two cracks could be analyzed separately without introducing significant error into the stress field calculations. Stress Intensity Factors J-Integrals Parallel Cracks
2	Fatigue Crack Growth Under Residual Stresses Around Holes Nagaralu, Ramesh 10 December 2005 (has links) Compressive residual stresses induced by tensile overloads, compressive under loads, or by a cold-expansion process in specimens containing a circular hole and their influence on subsequent fatigue crack growth in aluminum alloys are studied. The finite element method is used to calculate residual stresses. The superposition method, which uses crack-tip stress intensity factors for cases involving remote loading and residual stresses, is used to calculate crack growth life for three kinds of tests from the literature: (1) fatigue of a circular hole specimen after an overload or under load, (2) single crack growing from a circular hole after a severe tensile overload, and (3) single crack growing from a circular hole after cold-working, reaming and notching. All specimens were subjected to subsequent constant amplitude loading. The superposition method worked fairly well for most cases, but tended to over predict fatigue life for small cracks and for cracks growing under residual stresses, which produce compressive (maximum and minimum) stress intensity factors. fatigue stress intensity factors superposition residual stresses finite element method
3	Automated photoelastic determination of fracture parameters for bimaterial interface cracks Ekman, Matthew J. January 1998 (has links) This thesis details an experimental study on the determination of the fracture parameters for a crack located at the interface between two dissimilar materials using the method of photoelasticity. The interface is potential1y an inherent weak spot of any composite material, structure"or adhesively bonded joint. Accurate description of the state of stress at the crack tip is required for strength prediction. The concept of the complex stress intensity factor is used to characterise the elastic crack tip stress field for an interface crack. Complex stress intensity factors and their moduli have been measured experimental1y for standard bimaterial crack geometries using the wel1 established technique of photo elasticity. Bimaterial specimens comprising aluminium al10y and epoxy resin components were used. This creates a large material mismatch at the interface and al10ws data to be col1ected from the epoxy component of the specimen using transmission photoelasticity. An automated ful1 field photoelastic technique was developed to significantly reduce the data col1ection time. The technique comprises elements from the approaches of three wavelength and phase stepping photoelasticity and is a significant improvement on techniques previously available. Stress intensity factors were determined by fitting a theoretical stress field solution for the bimaterial crack to the experimental data. A computational routine automatical1y selects the region of best fit between the experimental data and the theoretical solution. This data is then used to determine the complex stress intensity factor and its modulus value. In order to provide a robust fit between the experimental data and the theoretical field solution a weighting function was incorporated into the routine. The measured bimaterial stress intensity factors are compared with those determined experimental1y for equivalent homogeneous specimens made from epoxy resin. The differences between the two are then discussed. The experimental results agree with the wel1 known concept that tension and shear effects are inherently coupled at the crack tip. However, the effects of changing the load angle with respect to the interface also demonstrate that some contrasts exist with known numerical solutions. 620.11223
4	Metodologia para análise de defeitos em rolamentos e cálculo da vida remanescente à fadiga. / Cracks and fatigue remaining life assessment of rolling bearings. Massoti, João Guilherme Brigoni 04 March 2011 (has links) Este trabalho apresenta os principais fenômenos que regem a propagação de trincas em anéis de rolamentos, por meio da aplicação de conceitos da Mecânica da Fratura Elástica Linear e Fadiga. O estado complexo de tensões atuante sobre o anel do rolamento culmina em carregamento modo misto sobre as paredes da trinca. Para o problema de rolamento proposto, são considerados os modos de abertura e de cisalhamento puro no plano do defeito, sob regime cíclico. O fator de intensidade de tensões K e a integral J são parâmetros que estabelecem condições de fratura e são suficientes, para caracterizar a criticidade de trincas instaladas em anéis de rolamentos. A avaliação da criticidade de defeitos é baseada na aplicação de Critérios de Falha distintos, oriundos de literaturas especializadas. A partir dos parâmetros de fratura, K e J , e da avaliação da criticidade de defeitos é possível determinar a vida remanescente à fadiga, por meio de modelos que descrevem a taxa de propagação de trincas. Os resultados indicam que o modo misto de carregamento de trinca considerado na dissertação, é um dos parâmetros mais importantes a considera-se na nucleação e propagação de defeitos em rolamentos, e são responsáveis por uma redução significativa da vida à fadiga originalmente estipulada. / This work presents the main phenomenon that governs the crack propagation in bearing rings, through the application of Linear Elastic Fracture Mechanics and Fatigue concepts. The complex stress state acting on the bearing ring produces a mixed mode loading over the crack faces. The proposed bearing problem considers a tensile mode and pure shear mode in the plane of the defect, both under a cyclic regime. The stress intensity factor K and the J -integral parameters define the fracture conditions and suffice to characterize the severity of cracks developed in bearing rings. The procedure for defect assessment is based on the application of different failure criteria. Using parameters, K and J, coupled to the defect assessment procedures, it is possible to estimate the remaining fatigue life, through models that describe the crack propagation rate. The results indicate that the mixed mode loading considered in this work is one of the most important parameters in nucleation and propagation of bearing defects and are responsible for a significant reduction in the original estimation of fatigue life. Bearings Fadiga Fatigue Fator de intensidade de tensões Mixed mode Modo misto Rolamento Stress intensity factors
5	Uma metodologia para determinação do fator de intensidade de tensões causado por tensões térmicas utilizando a fotoelasticidade QUINAN, MARCO A.D. 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:50:08Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T13:58:46Z (GMT). No. of bitstreams: 1 10458.pdf: 6292161 bytes, checksum: 035d670a36d319ca420fee75d85f96a6 (MD5) / Tese (Doutoramento) / IPEN/T / Instituto de Pesquisas Energeticas e Nucleares - IPEN/CNEN-SP STRESS INTENSITY FACTORS THERMAL STRESSES PHOTOELASTICITY FRACTURE MECHANICS STRESS ANALYSIS FINITE ELEMENT METHOD COMPARATIVE EVALUATIONS
6	Metodologia para análise de defeitos em rolamentos e cálculo da vida remanescente à fadiga. / Cracks and fatigue remaining life assessment of rolling bearings. João Guilherme Brigoni Massoti 04 March 2011 (has links) Este trabalho apresenta os principais fenômenos que regem a propagação de trincas em anéis de rolamentos, por meio da aplicação de conceitos da Mecânica da Fratura Elástica Linear e Fadiga. O estado complexo de tensões atuante sobre o anel do rolamento culmina em carregamento modo misto sobre as paredes da trinca. Para o problema de rolamento proposto, são considerados os modos de abertura e de cisalhamento puro no plano do defeito, sob regime cíclico. O fator de intensidade de tensões K e a integral J são parâmetros que estabelecem condições de fratura e são suficientes, para caracterizar a criticidade de trincas instaladas em anéis de rolamentos. A avaliação da criticidade de defeitos é baseada na aplicação de Critérios de Falha distintos, oriundos de literaturas especializadas. A partir dos parâmetros de fratura, K e J , e da avaliação da criticidade de defeitos é possível determinar a vida remanescente à fadiga, por meio de modelos que descrevem a taxa de propagação de trincas. Os resultados indicam que o modo misto de carregamento de trinca considerado na dissertação, é um dos parâmetros mais importantes a considera-se na nucleação e propagação de defeitos em rolamentos, e são responsáveis por uma redução significativa da vida à fadiga originalmente estipulada. / This work presents the main phenomenon that governs the crack propagation in bearing rings, through the application of Linear Elastic Fracture Mechanics and Fatigue concepts. The complex stress state acting on the bearing ring produces a mixed mode loading over the crack faces. The proposed bearing problem considers a tensile mode and pure shear mode in the plane of the defect, both under a cyclic regime. The stress intensity factor K and the J -integral parameters define the fracture conditions and suffice to characterize the severity of cracks developed in bearing rings. The procedure for defect assessment is based on the application of different failure criteria. Using parameters, K and J, coupled to the defect assessment procedures, it is possible to estimate the remaining fatigue life, through models that describe the crack propagation rate. The results indicate that the mixed mode loading considered in this work is one of the most important parameters in nucleation and propagation of bearing defects and are responsible for a significant reduction in the original estimation of fatigue life. Fadiga Fator de intensidade de tensões Modo misto Rolamento Bearings Fatigue Mixed mode Stress intensity factors
7	Uma metodologia para determinação do fator de intensidade de tensões causado por tensões térmicas utilizando a fotoelasticidade QUINAN, MARCO A.D. 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:50:08Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T13:58:46Z (GMT). No. of bitstreams: 1 10458.pdf: 6292161 bytes, checksum: 035d670a36d319ca420fee75d85f96a6 (MD5) / Tese (Doutoramento) / IPEN/T / Instituto de Pesquisas Energeticas e Nucleares - IPEN/CNEN-SP stress intensity factors thermal stresses photoelasticity fracture mechanics stress analysis finite element method comparative evaluations
8	Modélisation tridimensionelle de la fermeture induite par plasticité lors de la propagation d'une fissure de fatigue dans l'acier 304L / Phenomenon of plasticity-induced crack closure during the propagation of a fatigue crack in a 304L stainless steel Fiordalisi, Saverio 24 November 2014 (has links) Ce travail de thèse s’inscrit dans le cadre des problèmes de fissuration par fatigue, détectéesnotamment dans des structures nucléaires et se situe dans la continuité de travaux déjà réalisésau laboratoire. L’objectif de cette étude est la réalisation d’un outil numérique de prédictiondu phénomène de fermeture induite par plasticité, au cours de la propagation d’une fissure defatigue dans une éprouvette CT, dans un acier inoxydable 304L, en prenant en comptel’influence simultanée de la forme des fronts et de la longueur de fissure. Celle-ci a d’abordété considérée par le biais de modèles numérique tridimensionnels sous ABAQUS, avec desgéométries pré-imposées des fronts de fissure. Les évolutions des facteurs d’intensité effectifs(FIC) locaux le long des fronts et au cours de la propagation ont été comparées. Ensuite, unoutil numérique, utilisant le code ABAQUS et le langage de programmation PYTHON a étédéveloppé pour la prédiction automatique de la forme de la fissure en fonction des donnéesd’entrée (géométrie, charge, conditions aux limites, définition du contact au cours de lapropagation, maillage), à partir d’un entaille droite de longueur égale à 0.1mm. La variationeffective du FIC ΔK l eff local a été supposée étant la force motrice de la propagation. Lesessais de fatigue ciblés réalisés ont permis une comparaison critique avec le numérique, enterme de formes finales du front de fissure dans les différentes conditions de chargementimposées. / This PhD thesis deals with the problems of fatigue cracking, particularly detected in nuclearstructures, and is a continuation of work already carried out in the laboratory. The objective ofthis study is to provide a numerical prediction tool of the phenomenon of plasticity-inducedcrack closure, during the propagation of a fatigue crack in a CT specimen and in a 304Lstainless steel, taking into account the simultaneous influences of the crack shape and cracklength. This has been first considered through three-dimensional numerical models withABAQUS, through pre-imposed crack fronts geometries. The local stress intensity factors(FIC) evolutions along the crack fronts and over the whole propagation have been compared.Then, a numerical tool, using the ABAQUS code and the programming language PYTHONhas been developed in order to automatically predict the crack shape evolution, depending ondifferent input data (geometry, loads, boundary conditions, contact definition duringpropagation, mesh), starting from a 0.1mm straight notch. The local effective evolution of theSIF ΔK l eff has been supposed to be the driving force for the whole propagation. Fatiguetargeted tests have been carried out in order to allow a critical comparison with the numericalresults, in terms of final crack front shapes under different imposed loading conditions. Fermeture induite par plasticité Local stress intensity factors
9	Calculation of Stress Intensity Factors for an Infinite Isotropic Cracked Plate Khawaja, Asif Iqbal 03 August 2022 (has links) No description available. Civil Engineering Mechanical Engineering Mechanics "Stress Intensity Factors Singular Integral Equations Fracture Mechanics"
10	Solution of Linear Elastostatic and Elastodynamic Plane Problems by the Meshless Local Petrov-Galerkin Method Ching, Hsu-Kuang 12 September 2002 (has links) The meshless local Petrov-Galerkin (MLPG) method is used to numerically find an approximate solution of plane strain/stress linear elastostatic and elastodynamic problems. The MLPG method requires only a set of nodes both for the interpolation of the solution variables and the evaluation of various integrals appearing in the problem formulation. The monomial basis functions in the MLPG formulation have been enriched with those for the linear elastic fracture mechanics solutions near a crack tip. Also, the diffraction and the visibility criteria have been added to make the displacement field discontinuous across a crack. A computer code has been developed in Fortran and validated by comparing computed solutions of three static and one dynamic problem with their analytical solutions. The capabilities of the code have been extended to analyze contact problems in which a displacement component and the complementary traction component are prescribed at the same point of the boundary. The code has been used to analyze stress and deformation fields near a crack tip and to find the stress intensity factors by using contour integrals, the equivalent domain integrals and the J-integral and from the intercepts with the ordinate of the plots, on a logarithmic scale, of the stress components versus the distance ahead of the crack tip. We have also computed time histories of the stress intensity factors at the tips of a central crack in a rectangular plate with plate edges parallel to the crack loaded in tension. These are found to compare favorably with those available in the literature. The code has been used to compute time histories of the stress intensity factors in a double edge-notched plate with the smooth edge between the notches loaded in compression. It is found that the deformation fields near the notch tip are mode-II dominant. The mode mixity parameter can be changed in an orthotropic plate by adjusting the ratio of the Young's moduli in the axial and the transverse direction. The plane strain problem of compressing a linear elastic material confined in a rectangular cavity with rough horizontal walls and a smooth vertical wall has been studied with the developed code. Computed displacements and stresses are found to agree well with the analytical solution of the problem obtained by the Laplace transform technique. The Appendix describes the analysis with the finite element code ABAQUS of the dependence of the energy release rate upon the crack length in a polymeric disk enclosed in a steel ring and having a star shaped hole at its center. A starter crack is assumed to exist in one of the leaflets of the hole. The disk is loaded either by a pressure acting on the surfaces of the hole and the crack or by a temperature rise. Computed values of the energy release rate obtained by modeling the disk material as Hookean are found to be about 30% higher than those obtained when the disk material is modeled as Mooney-Rivlin. The latter set of results accounts for both material and geometric nonlinearities. / Ph. D. The Newmark family of methods J-integral Stress intensity factors MLPG method Coulomb friction

Search results