A small research sample of approximately 5 grams of aluminum hydride (alane) doped with 2-3 mol % TiCl3 contained within a glass ampoule ruptured after transit while stored in an office cabinet. The rupture was attributed to over-pressurization caused by hydrogen gas buildup within the sample over a four-month period. The glass ampoule, contained within a 0.2-inch thick cardboard shipping tube, was not a pressure-rated container. The rupture resulted in glass chards penetrating the protective cardboard shipping tube. The aluminum hydride, a fine powder, was released from the shipping tube during the pressure release. The fine aluminum powder leaked from the cabinet and set off a local smoke alarm that brought emergency responders to the scene. No personnel were present in the area when view more

A violent reaction occurred while hydrolyzing metal in water. The reactive metal treatment began with a review of the chemical inventory and setup of reaction vessels. The sodium metal was cut in shavings and added one at a time to the reaction vessel. After the second addition, an argon purge was added to disperse hydrogen gas faster. After approximately 10 pieces had been treated, the glass beaker shattered, releasing the contents of the reaction vessel (1 liter) inside the hood and causing the chemist's hand to receive superficial cuts. The process was being performed under a hood with all safety equipment in place. The employee was in personal protective equipment (PPE), but did receive two cuts on his hand through the glove. The treatment of reactive metals was being view more