TY  - THES
A1  - Gundermann, Ralf
T1  - 3D-Simulation des Temperaturfeldes und der Gefügeumwandlung bei einer Laserstrahlschweißung
T1  - 3D-simulation the temperature field and the material transformation at a laser beam welding
N2  - Das FEM-Programmsystem „SYSWELD“ kommt für die Berechnung des Temperaturfeldes bei einer Laserstrahlschweißung zum Einsatz. Insbesondere sollen der Einfluss des Energieeintrages und die damit verbundene Gefügeumwandlung eines Feinkornbaustahles untersucht und Aussagen zur notwendigen Modellierungsgenauigkeit der Nahtgeometrie bzw. Netzverfeinerung getroffen werden. Im Einzelnen sind folgende Teilaufgaben zu lösen: - ausführliche Literaturrecherche zur numerischen Analyse von Schweißverbindungen insbesondere zu temperaturabhängigen Materialeigenschaften von Feinkornbaustählen, - Darstellung der Wärmequelle für das Laserstrahlschweißen, - Erprobung unterschiedlicher Netzvarianten für die FE-Analyse von instationären Temperaturfeldern, - Untersuchung zur Modellierungsgenauigkeit der Nahtgeometrie, - Parameterstudien zum Einfluss der Materialkennwerte und Gefügekinetik auf das Temperaturfeld sowie das Gefüge.
N2  - The FEM-program "SYSWELD" comes for the calculation the temperature field at a laser beam welding to the employment. Particularly the influence of the energy deposit should explored and the with it joined material transformation of a fine grained steel and are met statements to the necessary modelling precision the weld geometry and mesh refinement. In the single following tasks are to be solved: - Comprehensive literature investigation to the numerical analysis of welding joints particularly to temperature dependent material properties of fine grained steels, - Display the heat source for the laser beam welding, - Test different mesh variants for the Fe-analysis of non-stationary temperature fields, - Investigation to the modelling precision on the weld geometry, - Investigation to the influence the material properties and material transformation on the temperature field as well as the material structure.
KW  - Laserschweißen
KW  - Finite-Elemente-Methode
KW  - Direkte numerische Simulation
KW  - Gefügeumwandlung
KW  - Feinkornbaustahl
KW  - Temperaturfeld
KW  - Laserstrahlschweißen
KW  - Aufheizraten
KW  - ZTU-Schaubild
KW  - laser beam
KW  - joint weld
KW  - fine grained steel
Y1  - 2005
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20111215-6680
N1  - Der Volltext-Zugang wurde im Zusammenhang mit der Klärung urheberrechtlicher Fragen mit sofortiger Wirkung gesperrt.
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  - Kraus, Matthias
A1  - Crişan, Nicolae-Andrei
A1  - Wittor, Björn
T1  - Stability Study of Cantilever-Beams – Numerical Analysis and Analytical Calculation (LTB)
JF  - ce/papers
N2  - According to Eurocode, the computation of bending strength for steel cantilever beams is a straightforward process. The approach is based on an Ayrton-Perry formula adaptation of buckling curves for steel members in compression, which involves the computation of an elastic critical buckling load for considering the instability. NCCI documents offer a simplified formula to determine the critical bending moment for cantilevers beams with symmetric cross-section. Besides the NCCI recommendations, other approaches, e.g. research literature or Finite-Element-Analysis, may be employed to determine critical buckling loads. However, in certain cases they render different results. Present paper summarizes and compares the abovementioned analytical and numerical approaches for determining critical loads and it exemplarily analyses corresponding cantilever beam capacities using numerical approaches based on plastic zones theory (GMNIA).
KW  - Träger
KW  - Stahl
KW  - Biegefestigkeit
KW  - Finite-Elemente-Methode
KW  - Stahlträger
KW  - Knicklast
KW  - Freiträgerkapazität
KW  - Eurocode
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20220112-45637
UR  - https://onlinelibrary.wiley.com/doi/full/10.1002/cepa.1539
VL  - 2021
IS  - Volume 4, issue 2-4
SP  - 2199
EP  - 2206
PB  - Ernst & Sohn, a Wiley brand
CY  - Berlin
ER  - 
TY  - GEN
A1  - Li, Fei
T1  - Numerische Untersuchungen zu Temperaturfeldern und Eigenspannungen einer MAG-geschweißten Stumpfnaht an austenitisch-ferritischem Stahl X2CrNiMoN22-5-3
T1  - Numerical analyses for temperature fields and residual stresses on a full seam butt activgas metal arc welding joint of 2205 duplex stainless steel
N2  - Auf der Basis der Literaturrecherche wird in dieser Arbeit eine 5-lagige MAG-geschweißte Stumpfnaht an austenitisch-ferritischen Stahl X2CrNiMoN22-5-3 (Duplex-Stahl 1.4462) mit dem FE-Programm „SYSWELD®“ simuliert. Die Berech-nungen der Temperaturfelder werden unter der Berücksichtigung sowohl von tempe-raturunabhängigen als auch temperaturabhängigen thermophysikalischen Material-eigenschaften am drei-dimensionalen und zwei-dimensionalen Modell durchgeführt. Die berechneten Temperatur-Zeit-Verläufe und Gefügeumwandlungen beim MAG-Schweißen der Stumpfnaht werden hinsichtlich der Einflüsse und Veränderun-gen analysiert und die ermittelten Abkühlzeiten t12/8 werden für jede Schweißlage bewertet. Anschließend werden die Berechnungen des Eigenspannungszustandes für einzelne Schweißlagen untersucht.
N2  - On the basis of literature research, a finite element numerical simulation is performed on a full seam butt activgas metal arc welding joint of 2205 duplex stainless steel (DSS) with the software “SYSWELD®”. A three-dimensional precise numerical model and a two-dimensional model for heat transfer and phase transformation is established for accurate calculation of temperature distribution and the cooling time t12/8 of every run during welding. The calculations of temperature field are in consid-eration of the temperature-undependent and temperature-dependent thermo-physical material properties. The calculated temperature-time-developing and the phase transformation of joint during welding are analyzed. The cooling time t12/8 of every run is evaluated. Subsequently the welding residual stress field is researched.
KW  - Duplexstahl
KW  - Temperaturfeld
KW  - Eigenspannung
KW  - MAG-Schweißen
KW  - Finite-Elemente-Methode
KW  - Direkte numerische Simulation
KW  - Gefügeumwandlung
KW  - Duplex-Stahl
KW  - thermophysikalische Materialeigenschaften
KW  - duplex stainless steel
KW  - numerical simulation
KW  - thermo-physical material properties
KW  - phase transformation
KW  - residual stress
Y1  - 2006
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20111215-7862
ER  -