Mechanical Characteristics and Thermal Decomposition Behavior of Polytetrahydrofuran Binder using Glycerol Propoxylate (M_n=260) as Crosslinking Agent

Abstract: Polytetrahydrofuran (PTHF) is an effective binder ingredient for improving propellant performance, even though it is not an energetic material. PTHF becomes sufficiently rubbery for use as a binder when a triol material such as glycerin is added as a crosslinking modifier. The cured PTHF/glycerin binder had unsatisfactory mechanical characteristics for use as a propellant binder, so a more appropriate crosslinking modifier than glycerin needs to be found. In this study, glycerol propoxylate (GPO), with a molec… Show more

“…Furthermore, the burning rate of propellant D at 7 MPa was 1.7 mm s À1 . It was lower than that of the propellant with 8% ADC, 2.7 mm s À1 [3]. This is because that ADC acts not only a catalyst, but also an oxidizer.…”

“…As a result, the AN/PTHF/glycerin propellant did not ignite. The mechanical characteristics and the thermal decomposition behaviors of PTHF binders using glycerol propoxylate as a crosslinking agent have been investigated by Kohga [3]. However, their burning characteristics have not been reported yet.…”

Thermal Decomposition Behaviors and Burning Characteristics of Ammonium Nitrate/Polytetrahydrofuran/Glycerin-based Composite Propellants Supplemented with MnO₂and Fe₂O₃

“…Furthermore, the burning rate of propellant D at 7 MPa was 1.7 mm s À1 . It was lower than that of the propellant with 8% ADC, 2.7 mm s À1 [3]. This is because that ADC acts not only a catalyst, but also an oxidizer.…”

“…As a result, the AN/PTHF/glycerin propellant did not ignite. The mechanical characteristics and the thermal decomposition behaviors of PTHF binders using glycerol propoxylate as a crosslinking agent have been investigated by Kohga [3]. However, their burning characteristics have not been reported yet.…”

Thermal Decomposition Behaviors and Burning Characteristics of Ammonium Nitrate/Polytetrahydrofuran/Glycerin-based Composite Propellants Supplemented with MnO₂and Fe₂O₃

“…PTHF does not solidify when IPDI is used alone [9], but did become sufficiently rubbery for use as a propellant binder upon the addition of GPO as a crosslinking modifier. GPO (Sigma-Aldrich) with a molecular weight of 1500 (GPO1) was used in this study, while GPO with a molecular weight of 260 (GPO2) was used in our previous study [14].…”

“…A cured PTHF/GPO blend would have good rubber-like elasticity because GPO does not have a linear structure. In a previous study [14], the use of a PTHF binder with GPO (M n = 260) as a crosslinking agent ensured optimal mixing of the propellant ingredients and casting of the uncured propellant into a rocket motor case, and these binders showed more flexible mechanical properties compared to those of PTHF/glycerin binders. GPO is produced in several different molecular weights.…”

“…The viscoelastic and thermal decomposition behaviors of PTHF/GPO blends depend on the molecular weight of GPO. GPO with a molecular weight of 260 was used in our previous study [14]. In this study, the curing behavior, tensile properties, and thermal decomposition behaviors of a PTHF binder with GPO with a molecular weight of 1500 were investigated, and the properties of this binder were compared with those of PTHF/GPO (M n = 260) binders.…”

Mechanical Characteristics and Thermal Decomposition Behaviors of Polytetrahydrofuran Binder with Glycerol Propoxylate (M_n=1500) as a Crosslinking Agent

Functional End Groups in Polytetrahydrofuran