TY - CONF A1 - Schwenk, Christopher T1 - Influence of material property values on result accuracy of FE welding simulation T2 - 5. Deutsch-Japanisches Seminar, Frauenhofer Institut Werkstoffmechanik iwm CY - Freiburg, Germany DA - 2007-06-27 PY - 2007 AN - OPUS4-15725 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Schempp, Philipp A1 - Cross, Carl Edward A1 - Schwenk, Christopher A1 - Rethmeier, Michael T1 - Influence of Ti and B additions on grain size and weldability of aluminium alloy 6082 N2 - Grain refinement is an important possibility to enhance the weldability of aluminium weld metal that is usually defined by its susceptibility to solidification cracking. In this study, grain refinement was achieved through the addition of commercial grain refiner containing titanium and boron to the GTA weld metal of aluminium alloy 6082. The weld metal mean grain size could be reduced significantly from about 70 µm to a saturated size of 21 µm with a change in grain shape from columnar to equiaxed. The grain refinement prevented the formation of centreline solidification cracking that was present only in welds with unrefined grain structure. A variation of torch speed led to a strong change of solidification parameters such as cooling rate that was measured in the weld metal and the corresponding solidification rate and thermal gradient. The ratio thermal gradient/growth rate (G/R) decreased from 50 K s/mm² (high torch speed) to 10 K s/mm² (low torch speed). However, the variation of torch speed did not change the tendency for solidification cracking. The microstructure of unrefined and completely refined weld metal was compared. The observed change in size and distribution of the interdendritic phases was related to the change in susceptibility to solidification cracking. KW - Aluminium KW - WIG-Schweißen KW - Kornfeinung KW - Schweißeignung KW - Heißrisse KW - Aluminium alloy KW - Solidification cracking KW - Weldability KW - GTA welding PY - 2012 SN - 0043-2288 SN - 1878-6669 VL - 56 IS - 09/10 SP - 95 EP - 104 PB - Springer CY - Oxford AN - OPUS4-26992 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - GEN A1 - Schwenk, Christopher ED - Böllinghaus, Thomas ED - Kitagawa, Masaki ED - Kishi, Teruo ED - Lexow, Jürgen T1 - Measurement and analysis of material properties needed for numerical welding simulation T2 - 1st World Materials Research Institutes Forum (WMRIF) - Workshop for young materials scientists CY - Tsukuba, Ibaraki, Japan DA - 2008-07-22 KW - Material Properties KW - Experimental Determination KW - Numerical Welding Simulation KW - Effects of Data Deviation PY - 2008 SN - 978-4-9900563-3-9 SP - XX-1 - XX-10 CY - Tsukuba, Ibaraki, Japan AN - OPUS4-17740 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - RPRT A1 - Rethmeier, Michael A1 - Schwenk, Christopher A1 - Heinze, Christoph T1 - Optimierung von Verzug und Eigenspannungen beim Schweißen dickwandiger Bauteile N2 - Die Schweißsimulation dickwandiger Bauteile stellt aufgrund der erhöhten Komplexität der thermophysikalischen und thermomechanischen Vorgänge beim Mehrlagenschweißen hohe Anforderungen an kommerziell verfügbare Schweißsimulationssoftware. Das umfasst die während des Fügeprozesses induzierten Verzüge und Eigenspannungen in das gefertigte Bauteil, welche zur Beurteilung der Fertigungsqualität von großer Bedeutung sind. Gerade in dickwandigen Bauteilen ist der Spannungszustand sowohl bedingt durch die konstruktive Steifigkeit der einzelnen Bauteile sowie der gesamten Baugruppe als auch aufgrund zusätzlicher externer Einspannvorrichtungen bei der Fertigung überaus komplex. Hinzu kommen bei Werkstoffen mit Phasenumwandlung noch die metallurgisch verursachten Spannungszustände und bei mehrlagig ausgeführten Schweißverbindungen die wiederholte thermische und umwandlungsbedingte Spannungsausbildung, so dass eine überschlägige Abschätzung des gesamten Verformungs- und Spannungszustandes auch für Experten in der Regel nicht mehr möglich ist. Die vorherrschenden Verformungen und Spannungen bestimmen jedoch maßgeblich die Eigenbeanspruchung der Schweißkonstruktion und damit deren Belastbarkeit im Betrieb. Eine genaue Kenntnis dieser Daten würde wertvolle Informationen zur Qualitätsoptimierung des Endproduktes liefern. KW - Schweißsimulation KW - Eigenspannungen KW - Verzug KW - Validierung KW - Sysweld KW - Mehrlagenschweißen PY - 2011 SN - 978-3-937567-98-3 SN - 3-937567-98-4 SP - 1 EP - 160 PB - Verlag und Vertriebsgesellschaft mbH CY - Düsseldorf AN - OPUS4-23350 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Heinze, Christoph A1 - Schwenk, Christopher A1 - Rethmeier, Michael T1 - Numerical calculation of residual stress development of multi-pass gas metal arc welding N2 - In various applications, welding-induced residual stresses have a substantial impact on the integrity of welded constructions. Tensile residual stress can promote stress-corrosion cracking, brittle fracture, and reduces the fatigue life in service, as well as influences component design due to critical stress concentrations within the component. In the present paper, a six bead multi-pass gas metal arc weld of 20 mm thick structural steel S355J2+N is experimentally and numerically investigated. The studies include transient 2D and 3D numerical calculations which consider temperature-dependent material properties, phase transformations, 'thermal' tempering, transformation plasticity, volume change due to phase transformation, an elastic–plastic material model, and isotropic strain hardening. The experimentally determined and calculated residual stresses are in a good agreement. Furthermore, the influence of the preheat and interpass temperature on welding-induced residual stresses is shown in the present investigation. KW - Welding simulation KW - Gas metal arc welding KW - Welding-induced residual stress KW - Multi-pass welding KW - Sensitivity analysis PY - 2012 DO - https://doi.org/10.1016/j.jcsr.2011.08.011 SN - 0143-974x VL - 72 SP - 12 EP - 19 PB - Elsevier Ltd. CY - Oxford AN - OPUS4-25629 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Heinze, Christoph A1 - Schwenk, Christopher A1 - Rethmeier, Michael T1 - The effect of tack welding on numerically calculated welding-induced distortion N2 - A single-layer pulsed gas metal arc weld of structural steel S355J2+N with a thickness of 5 mm is experimentally and numerically investigated. Two tack welds are considered in the numerical simulation into two different ways. First, the tack welds are represented by elements belonging to the initial material. This implies that the 'tack weld material' was not exposed to any thermal load or phase transformation before actual welding was performed. The weld seam is shortened and there is an influence on the stiffness of the whole structure affecting the calculation result. Secondly, the tack welds were simulated as conducted in the experimental welding procedure. The cases considering tack welding are compared to a simulation neglecting tack welding and to the experimental results. The influence of tack welds on the calculated welding-induced distortion is clarified and a contribution to an improved simulation-based prediction of welding-induced distortion is possible by modeling tack welding according to the realistic fabrication procedure. KW - Welding simulation KW - Welding-induced distortion KW - Gas metal arc welding KW - Tack welding PY - 2012 DO - https://doi.org/10.1016/j.jmatprotec.2011.09.016 SN - 0924-0136 SN - 1873-4774 VL - 212 IS - 1 SP - 308 EP - 314 PB - Elsevier CY - Amsterdam AN - OPUS4-24820 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER -