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Thermoplastic polyurethane - How thespecific two-stage decompositioncontrols its fire behavior
(2018)
Thermoplastic polyurethanes (TPUs) are one of the major classes of thermoplastic elastomers used in the cable and wire industry. Due to their chemical structure, they are considered as linear block copolymers with alternating hard and soft segments. This specific structure is not only responsible for the excellent mechanical properties of TPU like high tensile strength or abrasion resistance, but it also influences the pyrolysis and burning behavior. TPU is a highly flammable polymer which forms liquid pool fires or burning drops which results in intensive flame spread. Because of that, TPU often does not meet the strict requirements for indoor applications given by the cable market.
Under thermal stress, TPU decomposes in a specific way. At first, the hard segments decompose and the material becomes soft and melts. Subsequently, pool fires are formed and melted material burns extensively. There are not many works addressing this problem in detail especially in terms of suitable flame retardant solutions. It is crucial to understand at which stage the flame retardants are working and how they affect the thermal decomposition of TPU. Hence, the focus of this work was put on the identification of the reactions occurring during each stage of TPU decomposition and the contribution of released products to the effective heat of combustion (EHC). Moreover, the detailed analysis of the melt dripping behavior was performed to better understand the influence of the decomposition degree on the viscosity.
The use of melamine cyanurate (MC) in combination with other additives was reported to be a promising flame retardant solution for TPU, especially in cable jacket applications. Hence, the combinations of MC with various flame retardants were used in TPU (Elastollan® 1185A10) and were investigated in terms of fire behavior, flammability, pyrolysis and decomposition products. As flame retardants, common ones were used including aluminum trihydrate (ATH), melamine polyphosphate (MPP), or aluminum diethylphosphinate (AlPi). Moreover, commercial product TPU-FR (Elastollan® 1185A10FHF) was investigated as a reference.