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- Structural analysis (2) (entfernen)
The application of intumescent coatings for fire protection of steel constructions is increasing.
Thanks to the relative thin thickness of the coatings, the typical visual appearance of the
structures can be preserved. In Germany, the applicability of the systems is regulated by the
national as well as European technical approvals. According to the approvals, the application
on steel members in tension is only allowed with limitations. Especially, the application on
solid steel rods in tension is currently not covered. The paper will explain the actual state of
the art of the application of reactive fire protection systems applied to steel structures.
Physical and technical background information will be provided. After that, the latest
scientific results of an on-going research project funded by the German National Institute of
Building Technology (DIBt) and conducted by the Federal Institute for Materials Research
and Testing (BAM) will be described.
The safety of transport packages may be demonstrated by numerical calculation of load scenarios defined in the IAEA regulations. Possible handling accidents of casks at interim storage sites or in a final repository are typically analyzed by dynamic finite element computations. In each case the investigated load scenario must be transferred into a mathematical model. Secondly the mathematical model must be transferred into a numerical model. Reliable finite element models should be developed by assembling verified sub-models of components. The finite element mesh, material modeling, initial and boundary conditions, contact definitions, and time integration as well as the benefit of pre- and post-calculations are discussed. The paper presents lessons learnt from modeling dynamic test scenarios for finite element analyses over the years.