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Intermediate-scale testing is indispensable when investigating the fire resistance under simultaneous compressive load of components made of glass- and carbon-fibre-reinforced composites (GFRP and CFRP). BAM is successfully operating an intermediate-scale test stand, developed for a specimen size of 500 mm x 500 mm (1000 mm). The fire resistance in terms of fire stability of CFRP and GFRP sandwiches are investigated, e.g. at 20 % of their compressive failure load at room temperature. Times to failure increase by up to a factor of 4 due to intumescent coatings. For GFRP sandwiches, different core structures with and without additional flame retardants show an astonishing impact on time to failure. CFRP shell structures are investigated on the intermediate scale with and without stringer reinforcements, resulting in completely different mechanical failure behaviour in the ultimate load test as opposed to the fire resistance test. The stringers become the only load-carrying part, while the shell acts as a protective layer. Thus the design exploiting this self-protection potential, i.e. the residue of the front skin protecting the load-bearing structure, is highlighted as a most promising route to enhance the fire resistance of lightweight materials.
In the future new types of lift charges for display Shells will enter the market. These types may not be based on black powder and therefore will show different Performance behaviors. The European standard series EN 16261 deals with the testing and assessment of display fireworks in order to satisfy the essential safety requirements which have to be met before placing these items on the EU market.
The aim of the study is to investigate how certain types of lift charges (NC based) influence the lift, tumbling and drift of cylindrical shells. In consequence, if the performance characteristics deviate strongly from those of typical black powder, safety related regulations in the EU and Germany might be affected, as well.