TY - THES A1 - Diemar, Andreas T1 - Simulation des Einsatzhärtens und Abschätzung der Dauerfestigkeit einsatzgehärteter Bauteile T1 - Simulation of case hardening and fatigue limit estimation of case hardened components N2 - Die vorliegende Arbeit besitzt zwei Schwerpunkte. Zum einen wird das Einsatzhärten von Bauteilen basierend auf vorhandenen Materialmodellen simuliert. Zum anderen wird ein Konzept zur Abschätzung der Dauerfestigkeit einsatzgehärteter Bauteile vorgestellt, in dem wesentliche Ergebnisse der Wärmebehandlungssimulation als neue Ausgangsgrößen verwendet werden. Damit konnte erstmals ein geschlossenes werkstoffmechanisches Dauerfestigkeitskonzept für einsatzgehärtete Bauteile erarbeitet werden. Für die Analyse beliebiger Bauteilgeometrien ist eine Implementation der Materialmodelle in die FEM notwendig. Im Rahmen dieser Arbeit wurde das FE-Programm ABAQUS verwendet. Speziell für dieses FE-Programm wurde innerhalb dieser Arbeit das Subroutine-System ANTRI zur Simulation des Einsatzhärtens und Abschätzung der Dauerfestigkeit für einsatzgehärtete Bauteile entwickelt. Zur Verifikation des Subroutine-Systems ANTRI wurden experimenteller Ergebnisse aus der Literatur herangezogen. Für alle untersuchten Beispiele wurde eine sehr gute Übereinstimmung zwischen experimentell ermittelten Daten und simulierten Daten festgestellt. N2 - This thesis has two focuses. On the one hand, case hardening of components is simulated on the basis of existing material models. On the other hand, a concept is presented to evaluate the fatigue limit of case hardened components. In this concept the results of heat treatment simulation are used as new initial parameters. For the first time a complete (material-mechanical) concept for the fatigue limit of case hardened components is presented. For the analysis of any component geometry, an implementation of material models in FEM is necessary. The FE-program ABAQUS has been used in the frame of this thesis. The ANTRI subroutine system has been developed especially for this program to simulate case hardening and the evaluation of the fatigue limit for case hardened components. Experimental results found in publications have been used to verify the ANTRI subroutine system. A very good match has been observed between the data obtained through experiments and the simulated ones. KW - Wärmebehandlung KW - Mehrachsige Beanspruchung KW - Einsatzhärten KW - Aufkohlung KW - Phasenumwandlung KW - Eigenspannung KW - Plastizität KW - Dauerfestigk KW - transformationsinduzierte Plastizität KW - Fehlstellenmodell KW - Statistischer Größeneinfluss KW - transformation plasticity KW - weakest-link model KW - statistic size effect Y1 - 2007 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20080213-12945 ER - TY - JOUR A1 - Ibanez, Stalin A1 - Kraus, Matthias T1 - A Numerical Approach for Plastic Cross Cross-Sectional Analyses of Steel Members JF - ce/papers N2 - Global structural analyses in civil engineering are usually performed considering linear-elastic material behavior. However, for steel structures, a certain degree of plasticization depending on the member classification may be considered. Corresponding plastic analyses taking material nonlinearities into account are effectively realized using numerical methods. Frequently applied finite elements of two and three-dimensional models evaluate the plasticity at defined nodes using a yield surface, i.e. by a yield condition, hardening rule, and flow rule. Corresponding calculations are connected to a large numerical as well as time-consuming effort and they do not rely on the theoretical background of beam theory, to which the regulations of standards mainly correspond. For that reason, methods using beam elements (one-dimensional) combined with cross-sectional analyses are commonly applied for steel members in terms of plastic zones theories. In these approaches, plasticization is in general assessed by means of axial stress only. In this paper, more precise numerical representation of the combined stress states, i.e. axial and shear stresses, is presented and results of the proposed approach are validated and discussed. KW - Stahlkonstruktion KW - Plastizität KW - Strukturanalyse KW - Stahlbauteil KW - Axialspannung KW - Finite-Elemente-Methode Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20220112-45622 UR - https://onlinelibrary.wiley.com/doi/full/10.1002/cepa.1527 VL - 2021 IS - Volume 4, issue 2-4 SP - 2098 EP - 2106 PB - Ernst & Sohn, a Wiley brand CY - Berlin ER - TY - JOUR A1 - Staubach, Patrick A1 - Machacek, Jan A1 - Skowronek, Josefine A1 - Wichtmann, Torsten T1 - Vibratory pile driving in water-saturated sand: Back-analysis of model tests using a hydro-mechanically coupled CEL method JF - Soils and Foundations N2 - The development of a hydro-mechanically coupled Coupled-Eulerian–Lagrangian (CEL) method and its application to the back-analysisof vibratory pile driving model tests in water-saturated sand is presented. The predicted pile penetration using this approachis in good agreement with the results of the model tests as well as with fully Lagrangian simulations. In terms of pore water pressure, however, the results of the CEL simulation show a slightly worse accordance with the model tests compared to the Lagrangian simulation. Some shortcomings of the hydro-mechanically coupled CEL method in case of frictional contact problems and pore fluids with high bulk modulus are discussed. Lastly, the CEL method is applied to the simulation of vibratory driving of open-profile piles under partially drained conditions to study installation-induced changes in the soil state. It is concluded that the proposed method is capable of realistically reproducing the most important mechanisms in the soil during the driving process despite its addressed shortcomings. KW - Plastische Deformation KW - Vibratory pile driving KW - Coupled-Eulerian–Lagrangian KW - Hydro-mechanically coupled KW - Hypoplasticity KW - Relative acceleration KW - Large deformation KW - Deformationsverhalten KW - Plastizität KW - OA-Publikationsfonds2020 Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20210203-43571 UR - https://www.sciencedirect.com/science/article/pii/S0038080620337586?via%3Dihub VL - 2021 IS - Volume 61, Issue 1 SP - 144 EP - 159 PB - Elsevier, Science Direct CY - Amsterdam ER -