Micro‐mechanical analysis of creep behavior in a multipass weld

Lvov, Ivan

doi:10.1002/pamm.201210093

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2014

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“…4 All of these factors make it important to take anisotropy into account in modelling creep behaviour of the multipass weld. 5…”

Section: Introductionmentioning

confidence: 99%

Homogenisation approach in analysis of creep behaviour in multipass weld

Lvov

Naumenko

Altenbach

2014

Materials Science and Technology

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Different zones of welded joints are subjected to different temperature fields during the process of welding. Furthermore, in multi-pass welding, heating and cooling cycles, which occur due to the overlap of the pass beads, lead to the formation of complex microstructures. A method of evaluating the creep response of a multipass weld based on the micromacro mechanics approach is introduced. Multipass weld microstructures consisting of a columnar zone, which can be related to the microstructure of a single pass weld, and a heat affected zones are considered. To model the microstructure of the multipass weld metal the representative volume element (RVE) method is employed. Numerical tests on one-component loading of the RVEs are performed and creep material properties for equivalent weld material reported for welds with different number of passes.

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“…4 All of these factors make it important to take anisotropy into account in modelling creep behaviour of the multipass weld. 5…”

Section: Introductionmentioning

confidence: 99%