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- Weld geometry (1)
- Weld metal cracking (1)
- Weld toe geometry (1)
- Welded joint (1)
- Werkstoff (1)
- Werkstoffe (1)
- Werstoff- und geometrische Imperfektion (1)
- Wind Energy (1)
- Wärmbehandlung (1)
- Wärmebehandlung (1)
- X-ray and neutron diffraction (1)
- X-ray refraction (1)
- XRF (1)
- Zugversuch (1)
- carrier gas hot extraction (1)
- cold cracking safety (1)
- contour method (1)
- digitalisation (1)
- duplex stainless steel (1)
- fatigue crack growth (1)
- high-strength steel (1)
- hochfester Stahl (1)
- miniature specimens; FCGR curves; intrinsic threshold (1)
- neutron diffraction (1)
- residual stress analysis (1)
- µCT-analysis (1)
- μCT (1)
Organisationseinheit der BAM
- 9.4 Integrität von Schweißverbindungen (487) (entfernen)
Paper des Monats
- ja (5)
In order to satisfy the growing requirements towards lightweight design and resource efficiency in modern steel constructions, e.g., mobile cranes and bridges, high-strength steels with typical yield strength ≥ 690 MPa are coming into use to an increasing extent. However, these steels require special treatment in welding. The susceptibility for degradation of the mechanical properties
in the presence of hydrogen increases significantly with increasing yield strength. In case of missing knowledge about how and the amount of hydrogen that is uptaken during welding, hydrogen-assisted cracking (HAC) can be a negative consequence.
Moreover, modern weld technology like the modified spray arc process enables welding of narrower weld seams. In this context,
a reduced number of weld beads, volume, and total heat input are technical and economical benefits. This work presents the influence of welding parameters on the diffusible hydrogen content in both (1) single-pass and (2) multi-layer welds. Different
hydrogen concentrations were detected by varied contact tube distance, wire feed speed, arc length, and varied arc type (transitional
arc and modified spray arc). The results show that all welding parameters have significant influence on the diffusible hydrogen concentration in the single-pass welds. By increasing the number of weld beads in case of multi-layer welding, the
hydrogen concentration has been reduced. Whereby, differences in hydrogen concentrations between both arc types are present.
Analytical flaw assessment
(2018)
The paper provides a review on analytical flaw assessment methods with the focus on fracture under monotonic loading and fatigue crack propagation. The first topic comprises linear elastic as well as elastic-plastic fracture mechanics approaches. It essentially follows their historical development. Topics which are separately discussed are reference/Limit loads, the treatment of secondary stresses, strength mismatch, constraint, unstable crack propagation (monotonic R-curve analyses) and statistical aspects. With respect to fatigue crack propagation the analytical treatment of crack closure and constraint and the Determination of the cyclic elastic-plastic crack driving force is discussed. Finally, cyclic Rcurve analyses are briefly addressed.
Herausforderungen bei der schweißtechnischen Verarbeitung / Welche Rolle spielt der Wasserstoff beim Schweißen? / Vorgewärmt und doch ein Kaltriss? - Wärmeführung beim Schweißen / Abbildung bauteilspezifischer Beanspruchungen im Labormaßstab / Maßnahmen zur Kaltrissvermeidung / Moderne Lichtbogenschweißverfahren
Beim Schweißen höherfester Stähle mit LTT-Zusatzwerkstoffen im Wurzelbereich der Schweißverbindung wird eine Erhöhung der Kaltrisssicherheit durch die Erzeugung von Druckeigenspannungen erreicht.
Es sind mechanische Gütewerte und Eigenspannungen in Abhängigkeit der Randbedingungen, insbesondere der Wärmeführung und des Nahtaufbaus im Wurzelbereich, systematisch zu ermitteln. Durch das Ableiten von Verarbeitungsempfehlungen wird eine sichere und optimale Handhabung der LTT-Zusätze ermöglicht.
Ziel ist die Entwicklung eines Maßnahmenkatalogs für die schweißtechnische Verarbeitung von LTT-Zusatzwerkstoffen zur Kaltrissvermeidung im Wurzelbereich höherfester Schweißverbindungen speziell für den Offshore-Bereich.
In vielen Industriebranchen werden zunehmend hochfeste Feinkornbaustähle mit Streckgrenzen ≥ 690 MPa eingesetzt. Allerdings werden mit zunehmender Festigkeit deutlich höhere Anforderungen an deren schweißtechnische Verarbeitung gestellt, da gerade die Sensibilität gegenüber einer Degradation der mechanischen Eigenschaften, durch den beim Schweißen aufgenommenen Wasserstoff, mit steigender Festigkeit stark zunimmt. In der vorliegenden Präsentation sind Ergebnisse aus vergleichenden Untersuchungen mit konventionellem Übergangslichtbogen und modifiziertem Sprühlichtbogen mit reduziertem Nahtöffnungswinkel hinsichtlich der Wasserstoffaufnahme beim Schweißen unter Variation von Streckenenergie, Arbeitstemperatur und Nachwärmprozedur dargestellt. Grundsätzlich ist den erarbeiteten Ergebnissen zu entnehmen, dass im Schweißgut von Stumpfstoßverbindungen mit reduziertem Nahtöffnungswinkel erhöhte mittlere Wasserstoffkonzentrationen vorliegen. Geeignete Wärmeführungen führten zu einer signifikanten Reduzierung der Wasserstoffkonzentration beim Einsatz der Nahtkonfiguration mit abgesenktem Nahtöffnungswinkel. Dabei erwies sich eine Nachwärmprozedur aus der Schweißwärme heraus als zielführend. Des weiteren sind Gradienten der Wasserstoffkonzentration in Blechdickenrichtung aufgezeigt.
Bei der Fertigung dickwandiger Bauteile durch Schweißverfahren mit großen Abschmelzleistungen kommt es zu einer Wasserstoffversprödung. Diese ist abhängig von den Grundwerkstoff-Zusatzwerkstoff-Kombinationen, welche zu unterschiedlichen Ausscheidungen führen und das Diffusions- und Trappingverhalten des Wasserstoffes im Gefüge beeinflussen. Die metallurgischen Einflüsse sind bisher unbekannt. Es werden Empfehlungen zur Wärmeführung beim Schweißen abgeleitet. Hierzu ist es notwendig, die metallurgie- und mikrostrukturspezifische Wasserstoffdiffusion und -freisetzungstemperatur zu bestimmen. Die Konzepte zur Vermeidung der Kaltrissanfälligkeit werden an UP/MSG-Bauteilschweißungen entwickelt. Ziel ist die Identifikation von metallurgisch günstigen GW-Zusatz-Kombinationen zur a-priori Vermeidung zeitverzögerter wasserstoffunterstützter Kaltrissbildung geschweißter Komponenten aus modernen Stählen.
In an increasing number of modern steel applications, high-strength structural steel grades are demanded to meet specifications regarding a high load-bearing capacity and a low operating weight. Lightweight design rules enhance the safety requirements, especially for welded joints. Besides a higher cracking risk for high-strength steel welds, the formation of tensile residual stresses might lead to fracture due to overloading or premature failure if not adequately considered. In this study, a stress-strain analysis was conducted at component-related structures from S960QL using digital image correlation while preheating, welding and cooling adjacent to the weld seam. X-ray diffraction analysis of the local residual stresses in the weld seam showed a good comparability with global analyses using either a DIC system or a special testing facility, which allowed in situ measurements of welding loads. By analysing two different seam geometries, it could be shown that lower multi-axial stresses arise if a narrower weld groove is used. Comparative analyses revealed a direct correlation of the local residual stresses in the weld with transverse shrinkage restraint, whereas the residual stress level in the HAZ is significantly affected by the bending restraint of the weld construction and the occurring bending stresses, respectively.
Hydrogen-assisted cracking is a critical combination of local microstructure, mechanical load and hydrogen concentration. Welded microstructures of low-alloyed creep-resistant Cr-Mo-V steels show different hydrogen trapping kinetics. This influences the adsorbed hydrogen concentration as well as the diffusion by moderate or strong trapping. A common approach to describe hydrogen traps is by their activation energy that is necessary to release hydrogen from the trap. In the present study, Cr-Mo-V steel T24 (7CrMoVTiB10-10) base material and TIG weld metal were investigated. Electrochemically hydrogen charged specimens
were analyzed by thermal desorption analysis (TDA) with different linear heating rates. The results show two different effects. At first, the microstructure effect on trapping is evident in terms of higher hydrogen concentrations in the weld metal and increased activation energy for hydrogen release. Secondly, it is necessary to monitor the real specimen temperature. A comparison between the adjusted heating rate and the real specimen temperature shows that the calculated activation energy varies by factor two. Thus, the trap character in case of the base material changes to irreversible at decreased temperature. Hence, the effect of the experimental procedure must be considered as well if evaluating TDA results. Finally, realistic temperature assessment is mandatory for calculation of activation energy via TDA.
Additive Manufacturing (AM) of metals has become industrially viable for a large variety of applications, including aerospace, automotive and medicine. Powder bed techniques such as Selective Laser Melting (SLM) based on layer-by-layer deposition and laser melt enable numerous degrees of freedom for the geometrical design. Developing during the manufacturing process, residual stresses may limit the application of SLM parts by reducing the load bearing capacity as well as induce unwanted distortion depending on the boundary conditions specified in manufacturing.
The residual stress distribution in the bulk of IN718 elongated prisms produced by SLM was studied non-destructively by means of neutron diffraction. The samples with different scanning strategies, i.e. hatching length, were measured in as-build condition (on a build plate) and after removal from the build plate.
The absolute values of all stress components decreased after removal from the build plate. Together with surface scan utilizing a coordinate-measuring machine (CMM), it is possible to link the stress release to the sample distortion. Obtained results indicated different residual stress states for each of the transversal, longitudinal and normal component depending on the thermal gradient in the respective direction.
Höherfester Feinkornbaustahl mit Streckgrenzen von 960 MPa findet in vielen Industriebranchen zunehmend Einsatz. Allerdings werden mit zunehmender Festigkeit deutlich höhere Anforderungen an deren schweißtechnische Verarbeitung gestellt. Die Sensibilität gegenüber einer Degradation der mechanischen Eigenschaften kann durch den beim Schweißen aufgenommenen diffusiblen Wasserstoff zunehmen. Eine mögliche wasserstoffunterstützte Kaltrissbildung ist die Folge. In dem Vortrag werden vergleichende Untersuchungen von konventionellem Übergangslichtbogen und modifiziertem Sprühlichtbogen mittels Implant-Test vorgestellt. Der Einsatz beider Lichtbögen führt zu ähnlichen kritischen Implantspannungen. Jedoch kommt es beim modifiziertem Sprühlichtbogen zu einer zeitverzögerten Rissbildung. Zudem unterscheidet sich die Bruchtopographie der beiden Fälle.