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Temperature dependent material properties for welding simulation - measurement, analysis, exemplary data

: Schwenk, C.; Rethmeier, M.

Volltext (PDF; )

Welding journal 90 (2011), Nr.11, S.220-227
ISSN: 0043-2296
ISSN: 0096-7629
Zeitschriftenaufsatz, Elektronische Publikation
Fraunhofer IPK ()

Welding is a key technology in the area of industrial production due to its flexibility and efficiency. However, new materials and welding techniques necessitate permanent research activities in order to keep up with the demands. A detailed knowledge about the process itself and the heat effects of welding, e.g., temperatures, distortions,and stresses, is the basis for a target-oriented optimization instead of a trial-and-error approach. Numerical welding simulation is a powerful tool to meet these demands. Complementary to an experimental investigation, it enables the analysis of the specimen during the welding process, commonly known as computational welding mechanics(CWM). Whereas simulation is nowadays a common tool in different development processes, the modeling of welding still re mains difficult because of the multiple physical effects taking place. One of the most important problems for the user is the lack of knowledge about the material properties as input data for the simulation. Furthermore, any scattering of the data causes uncertainties that can have major effects on the calculations. The objective of this paper is to give an overview about the experimental determination and analysis of the material properties needed as input data for a welding simulation. The measurement techniques and the occurring deviations of the results are discussed. Additionally, the collected data for three representative alloys (dual-phase steel, austenitic steel, precipitation-hardenable aluminum alloy) are analyzed. Finally, the temperature-dependent thermophysical and thermome chanical material properties for these three alloys are given in a ready-to-use format for a numerical welding simulation.