Tese: Characterization of The Mechanical Behavior Under Multiaxial Low Cycle Fatigue of SAE 1020 Steel and 6351-T6 Aluminum Alloys
Aluno(a) : Thiago Almeida CunhaOrientador(a): Jaime Tupiassú e Marco A. Meggiolaro
Área de Concentração: Mecânica Aplicada
Data: 25/09/2019
Link para tese/dissertação: http://doi.org/10.17771/PUCRio.acad.48821
Resumo: The mechanical failure known as fatigue is characterized by the formation and/or propagation of cracks caused by variable forces. Its traditional methodologies normally calculate an equivalent uniaxial tensile stress acting on the component, in order to compare it with the known experimental mechanical behavior data of the component’s material measured under uniaxial loads. This assumption can lead to non-conservative results because it considers the material to be equally sensitive to shear and tensile stresses, which is not true in a wide range of practical applications. Therefore, torsional and multiaxial experimental data is necessary to better predict the fatigue life of components. To execute those experiments, the present work proposes a variety of component designs and assembly methodologies to use on an Instron 8874 axial-torsional testing machine a hydraulic grip originally designed for an Instron 8501 uniaxial testing machine. Furthermore, a simplified method to estimate shear ( N) low-cycle fatigue properties via displacement-controlled experiments is proposed to avoid the need of using expensive equipment and different specimen designs, and used for characterization of SAE 1020 Steel and 6351-T6 Aluminum alloys. This data is compared with the measured tensile ( N) low-cycle fatigue properties to identify if these materials are tensile or shear sensitive under multiaxial loading conditions. A numerical computing code is used to fit N and N curves to the experimental data, and its implementation procedures are discussed. Finally, the most suitable critical-plane multiaxial fatigue models are proposed for each material tested, based on the measured data.