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This work investigates the fire phenomena of rigid polyurethane foams (RPUFs) in detail. To elucidate structure-property relationships, systematically varied sets of materials were prepared covering polyurethane, polyisocyanurate-polyurethane and flame retarded polyurethane foams. Advanced cone calorimeter investigations provide insight into the fire behavior under forced flaming conditions. Thermocouples inside specimens give information about the temperature gradient during combustion. Furthermore, fire phenomena were characterized using cross sections of quenched samples and the scanning electron microscope. By using a Multi methodological approach and systematically varied sets of foam materials, new insights into the burning of RPUFs were won. For the flame retarded foams, the dominant flame retardant mode of action changed with density. PIR foams exhibited a cellular structure in the residue leading to the superior fire performance compared to polyurethane foams. The understanding of fire phenomena contributes to future development of tailored flame retardant strategies for RPUFs.
Transport containers with radioactive material are usually shipped in Germany with wooden-filled impact limiters. Alternative energy-absorbing materials for this purpose can be polyurethane foam, for example. In order to adequately determine the characteristics for a selected PU foam, various experimental investigations must be carried out. Classically, PU foam specimens are tested under uniaxial compression, confined compression and a tensile test. Using the experimental data and selected material models from the literature, the parameters can be determined to describe and apply material models.