CC BY 4.0Lemos, Mauricio FerrapontoffMauricio FerrapontoffLemosBohn, ManfredManfredBohnSchaller, UweUweSchaller2022-03-132024-02-012024-02-072022-03-132017-06https://doi.org/10.24406/publica-2536https://publica.fraunhofer.de/handle/publica/39696410.24406/publica-2536Energetic ionic liquids (EILs) were used as plasticizers in polyester-polyol based polyurethane elastomer samples. The polyol was Desmophen-2200® cured with Desmodur-N3400®. The elastomer samples were characterized in terms of dynamic mechanical properties and tensile strength. The EIL samples are based on 4‐Amino‐1‐alkyl‐1,2,4‐triazolium nitrate and are mixtures with different alkyl length, named aN1 and bN2. The first is a mixture containing longer alkyl substituents (4, 6 and 8 carbons),whereas the second one has shorter alkyl substituents (1 and 4 carbons). The addition of ionic liquids to the elastomer did not affect the main glass-rubber transition temperature (Tg) of the binder. However, the dynamic mechanical properties are changed especially after Tg. Tensile testing showed that at ambient temperatures the addition of ionic liquids increased substantially the strain capability of polyester-based polyurethane binder. In the case of the addition of molecules with shorter aliphatic substituents, also higher maximum tensile stress is achieved. EILs as plasticizer impart a very soft rubbery behaviour to the binder, reflected also by the decrease in Young moduli.enEnergetic Ionic Liquid PlasticizerDesmophen D2200 ®Mechanical and DMA propertiesPolyesterEnergetic ionic liquids (EILs)Mechanical propertiesEnergetic formulationEnergetic materialsconference paper