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- Grade S960QL steel (1)
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The aim of this research was to investigate the influence of nominal temperature errors on test results and to develop the nominal temperature tolerance for TMF-tests. This concept was confirmed with series of specially developed TMF-tests with defined temperature errors, performed on one test material (NIMONIC 90) in a temperature range of 400850 °C. These tests should show the influence of temperature errors on test results with an emphasis on lifetime in comparison with reference tests. It is shown that with a limited number of specimens and only one test material, it is possible to propose a reasonable general temperature tolerance for TMF-tests, valid for a wide range of materials and test conditions.
The sound numerical prediction of welding-induced thermal stresses, residual stresses, and distortions strongly depends on the accurate description of a welded material’s thermomechanical deformation behaviour. In this work, we provide experimental data on the viscoplastic deformation behaviour of a grade-s960ql steel up to a temperature of 1000 ◦C. In addition, a multi-phase viscoplastic material model is proposed, which accounts for the experimentally observed isothermal deformation behaviour of grade-s960ql steel base and austenitised material, as well as for athermal contributions that originate from solid-state phase transformations. The multi-phase viscoplastic and a classic rateindependent isotropic hardening material model were applied in the numerical simulations of both-ends-fixed bar Satoh tests and a single-pass gas metal arc weld. The influence of material modelling choices on the agreement between numerical simulation and experimental results is discussed, and recommendations for further work are given.