A method for estimation of the time since discharge of spent cartridges is
presented. This method is based on SPME (Solid Phase Microextraction) sampl
ing from the atmosphere inside cartridges. Either naphthalene or an unident
ified compound designated as the TEA2-compound were detected in most of the
cartridges. These combustion products are the same as those measured in fi
rearm barrels, but in cartridges the detected amounts are lower. The estima
tion of time since discharge is based on the rate of escape of the volatile
combustion compounds from the cartridge as a function of time. Three categ
ories of cartridges were studied separately-shotgun shells, cartridges from
sporting rifles, and cartridges from pistols/revolvers. For shotgun shells
the decay of the naphthalene peak is measured. At room temperature, naphth
alene is detectable in shotgun cartridges for 2-3 weeks after the discharge
. In cartridges from sporting rifles, only the TEA2-peak is detectable and
observable for about 2 weeks after the discharge. The technique presented f
ailed to detect any combustion product in pistol/revolver cartridges, with
the exception of longer cartridges, such as Magnum and in small caliber car
tridges (caliber.22) where the TEA2-peak was observed for several days afte
r the discharge. Nitroglycerin (NG) was detectable in cartridges from some
manufacturers, but the reproducibility of its detection was rather poor. Mo
reover the decay of NG was too slow at temperatures below room temperature.
The repetitive SPME sampling did not disturb the system. Attempts to preve
nt the volatile compound from escaping from cartridges was unsuccessful. So
me experiments were performed with cartridges stored outdoors, exposed to w
ind, rain, and snow.