Chemical Bond Between Stabilizers and HTPB Binders in Propellants

The burning rates of series of bi-and trimodal AP-HTPB propellants have been incorporated into an empirical statistical model which describes a hypothetical pentamodal polydisperse AP pseudopropellant. This pseudopropellant is the linear summation of five unimodal polydisperse AP pseudopropellants.

We study the intensity-dependent behavior of laser-induced vibrational quasi-energy (VQE) resonance structure and photodissociation rates of H: molecular ions in intense laser fields at 775 nm and report a novel new high-intensity phenomenon. At strong fields, the vibrational levels are shifted and

We report the first theoretical study of the structure of laser-induced vibrational quasi-energy (VQE) resonance states of D: in intense one-and two-color (fundamental and its third harmonic) laser fields by means of the complex-scaling generalized Fourier-grid Floquet Hamiltonian technique. Stabili

The results of ab initio R H F / ~-~~G , R H F / ~-~~G \* , and ~r 2 / 6 -3 1 G \* \* / / H F / 6 -3 1 G \* calculations for 10 possible configurations of OM,H, molecules (MO . 3MH,, M = Be, Mg) are reported. Five isomers of OBe,H, and three isomers of OMg,H, have been found within an energy range o

The mechanical and chemical stabxlity of Teflon \* bonded graphite electrodes operating in the oxygen evolution mode in 5N KOH was studied as a function of cd and time. The electrode starts to break up at 13 mA cm-' and on subsequent cathodic oxygen reduction performance is greatly reduced. Moreover