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題 名 | 化學防護服材料趨勢分析=Trend Analysis of Chemical Protective Clothing Materials |
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作 者 | 喬昭華; 陳省三; 翟敦敏; | 書刊名 | 輔仁民生學誌 |
卷 期 | 12:1 民95.12 |
頁 次 | 頁27-40 |
分類號 | 478.17 |
關鍵詞 | 化學防護服; 材料; 專利; 化學文摘登記號碼; Chemical protective clothing; Materials; Patent; CAS registry number; |
語 文 | 中文(Chinese) |
中文摘要 | 本研究分析從1980到2005年歐洲專利局(EPO)所收納之世界已核准及早期公開之化學防護服材料專利,並以化學文摘登記號碼進一步分析化學防護服材料之種類與發展趨勢及成為關鍵材料之因素。 在化學防護服材料之種類與發展趨勢方面:從專利材料的化學文摘登記號碼來看,活性碳、聚四氟乙烯(PTFE)及聚乙烯為主要的應用材料。在2000年以後的活性碳材料更進一步結合奈米技術,以提升吸附能力;而PTFE防護材料專利,則多強調防護服的透氣性及多功能性(能隔絕多項危害物質)。本研究並整理出專利中應用於化學防護服之新材料及其化學文摘登記號碼,包括有吸附材料、阻隔層材料、飛機用阻隔層材料(常溫處理)、高分子材料、架橋劑、分散劑、防火加工劑、黏著劑、提升耐久性材料、製作球形活性碳的反應物及生化解毒劑。 在化學防護服之關鍵材料因素與最新化學防護服材料之應用方面:本研究歸納出化學防護服之關鍵材料因素有阻隔能力、吸附能力、解毒功能、穿著舒適性、材料強度(耐久性)及層狀結構;而在最新化學防護服材料之應用上,在2000年之後的專利材料中我們可以發現以層狀結構結合多種材料達到多重防護效果的材料趨勢,同時奈米科技開始應用到化學防護服材料上,防護服材料正邁向重量更輕、強度更好、阻隔性更佳、由傳統的被動吸附到主動的消毒解毒功能,結合多層材料達到防化學危害、防輻射、防生物戰劑與防有害微生物的功能。 |
英文摘要 | This study examined the issued and pre-granted patents of worldwide chemical protective clothing (CPC) materials. Time span and patent office were 1980 to 2005 and EPO, respectively. The purposes of the study were to analyze the technical trends and classifications of CPC material through bibliography and CAS registry number (RN), and analyze the most developed of CPC material in recent years. From analyzing RN carefully, we found out that the activated carbon, Polytetrafluoro-ethylene (PTFE), and Polyethylene were the main CPC materials. After 2000, the activated carbon was integrated with the nanotechnology to promote the adsorption ability as absorption material. On the other hand, the PTFE material was used in membrane to upgrade the air permeability with good resistance to multi-harmful damages. The study also generated the new applications of RN in CPC material, including the absorbent, barrier layer, room-temp.-curable barrier layer for airplane, polymers, crosslinking agent, dispersant, flame-retardant agent, adhesives, enhanced durability agent of protective clothing, reactant of spherical activated carbon, and the polyoxometalate materials for removing environmental contaminant. Analytic results showed that key CPC materials concentrated on the barrier ability, adsorption, detoxifying ability, comfortability, durability, and layer construction. At the same time, the material also integrated into nanotechnology to promote the CPC performances. In the near future, The CPC would be lighter, stronger, and better protected. From passive adsorbent to active detoxifying and combine multi-resistance ability in one piece by applying layer construction to reach the multi-protection purposes, such as protection of atomic, biological and chemical warfare agents. |
本系統中英文摘要資訊取自各篇刊載內容。