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題 名 | 火炸藥和炸藥殘跡性質檢測之研究=Detection and Characterization for Study of Explosives and Explosive Residue |
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作 者 | 張章平; 葉早發; 袁俊龍; | 書刊名 | 黃埔學報 |
卷 期 | 52(工程科學類) 2007.03[民96.03] |
頁 次 | 頁71-90 |
分類號 | 462.1 |
關鍵詞 | 火炸藥; 化學感測器; 火炸藥殘跡; Explosive; Chemistry sensor; Explosive residue; |
語 文 | 中文(Chinese) |
中文摘要 | 目前有兩種已被認可有關火炸藥在清除與濃縮方面的技術:固相微波萃取 (Solid Phase Microextraction, SPME) 、超臨界流體萃取 (Supercritical Fluid Extraction, SFE) ;對飛航安全的研究工作方面,其中由EGIS 所發展的化學檢測器以及運用X-ray的散射和表面聲波儀器來對火炸藥潛藏於行李實施檢測。在整個從爆炸現場移轉至實驗室的處理過程中,使用離子流動光譜儀(IMS)來確定相關火炸藥的殘跡是否還存在,也有使用訓練有素的狗作為爆炸的檢測器。另外,對於有關有機和無機火炸藥的微量檢測和鑑定方面;有機火炸藥檢測技術可用TLC、HPTLC、拉曼光譜、離子流動光譜儀(IMS)、GC/MS、GC/TEA、GC/ECD等方法,而無機火炸藥檢測技術則可用離子層析法 (IC)、毛細管電泳 (CE)、SEM/EDX、FTIR 、GC/MS及呈色試驗來作分析。美國菸酒武器管理局 (ATF) 在研究新的預防技術方面,基於microcantilever 和microcalorimetry 所涉及的微機電機制系統發現,未來火炸藥感測器的發展基調,將以微型化、質輕、價廉、穩定性高、低耗電與高靈敏的微量偵測及遙測技術為基礎。因此研究運用聚合反應方法合成共軛高分子衍生物,並搭配相關檢測儀器製成多功能陣列式偵檢器,以期能達到ATF 所言之發展目標。 |
英文摘要 | Two promising techniques for the removal and concentration of an analyte in a matrix are Solid Phase Micro-extraction (SPME) and Supercritical Fluid Extraction (SFE).; In the research area of flight security, chemiluminescence detector developed by EGIS, angular dispersive x-ray diffraction and surface acoustic devices are used in baggage screening for explosives hidden in the luggage. In the whole treatment process of transfer from explosion scene to laboratory, ion mobility spectrometer (IMS) can be used to confirm whether the residues of the relevant explosive exist. Alteratively, effectively trained dogs can be used as explosive detectors too. In addition, in the respect of detection and identification of the trace about organic and inorganic explosive; Organic explosive detection techniques such as TLC, HPTLC, Ramon spectrum, IMS , GC/MS, GC/TEA, GC/ECD, etc. are available. While for inorganic explosives, ion chromatography (IC), capillary electrophoresis (CE), SEM/EDX, FTIR, GC/MS and the paper color test can be applied to do analysis. ATF tasked to investigate new prevention technology to detect explosives, have been funded in micro-electro-mechanical systems based on micro-cantilever and micro-calorimetry technology, in the future studies development fundamental should be miniaturized, light, inexpensive, stable, low power consumptive with high sensitive trace device to detect and remote control. The use of polymerization to synthesize conjugate polymer derivatives and collocation of relevant detecting instrument to make multi-functional array detector, to reach development goal as ATF proposed. |
本系統中英文摘要資訊取自各篇刊載內容。