Mechanism for oxidation of yperite at high temperatures behind shock waves

## Abstract The oxidation of acetylene by water vapor was studied behind the reflected shock in a single‐pulse shock tube. Computer simulation experiments reproduced the experimental results in the temperature range of 1500 to 2000°K. The kinetic scheme suggested here involves three major processes

The kinetics of the thermal decomposition of acetylacetone has been studied in a shock tube in the temperature range of 1120-1660 K. Detailed analyses of CO and H20 formation data indicate that HzO is formed by a four-center molecular channel, whereas CO is formed by the rapid dissociation of CH3C0

The thermal decomposition of acetonitrile was studied behind reflected shocks in a single pulse shock tube over the temperature range 1350-1950 K at overall densities of approximately 3 x mol/cc. Methane and hydrogen cyanide are the major reaction products. They are formed by an attack of H and CH,

The Inconel 601 alloy oxidation was performed in air, in the temperature range 1000-1150 8C, during 90 h. Kinetic results show that the parabolic behavior is always followed in this temperature range. The Arrhenius plot of the k p values shows two different activation energies. Between 1000 and 1050