Detection of Explosives Using a Micro-cantilever Array Nano-Calorimeter System
Abstract
Over the past few decades, the likeliness of an attack from explosives has increased dramatically. Hence, the need to find a reliable device with the ability to detect
explosives has increased even more. Sensing schemes based on micro-cantilever beams and their bending responses to specific explosives are considered to be an effective
technique for explosives detection. In this study the bending responses of an array of micro-cantilever beams integrated with micro-heaters are recorded when they are
exposed to various combustible materials. The results show that the micro-cantilever beams display a distinct response when exposed to different combustible materials. In
the experiments it was observed that typically the deflection of the micro-cantilever beam in response to the thermal bi-metallic actuation was greater when exposed to
acetone vapors than that for alcohol and air. Also, the deflection of the beam was greater for experiments using iso-propyl alcohol than that for air. These results are consistent with prior reports in the literature.
Citation
Lane, Matthew (2011). Detection of Explosives Using a Micro-cantilever Array Nano-Calorimeter System. Texas A&M University. Available electronically from https : / /hdl .handle .net /1969 .1 /ETD -TAMU -2011 -05 -9672.