防弹防爆纤维及复合材料多样化和复合化的发展趋势
发布时间:2018-10-31 11:51
【摘要】:防弹(爆)纤维及其复合材料在军民两用领域的扩大应用,为其规模化生产和降低成本创造了条件。这类材料最令人鼓舞的改进莫过于更轻便、更薄和更强,有些改进还同时带来了使用寿命的延长。目前,主流的防弹纤维还是对位芳香族聚酰胺纤维(p-ARF)和超高分子量聚乙烯纤维(UHMWPEF),一些本不防弹的纤维如碳纤维(CF)、高强聚酰亚胺纤维(PIMF)、聚芳酯纤维(LCPF)和超高模量聚丙烯纤维(Innegra)等,由于技术上的重大突破,也加入了防弹纤维的行列。除更轻、更薄、更强等方向外,多样化和复合化也是防弹(爆)纤维材料今后的发展方向。
[Abstract]:The expanded application of bulletproof fiber and its composites in the field of military and civil use creates conditions for its large-scale production and cost reduction. The most encouraging improvements in these materials are lighter, thinner and stronger, some of which also lead to longer service life. At present, the mainstream bulletproof fiber is still para-aromatic polyamide fiber (p-ARF) and ultra-high molecular weight polyethylene fiber (UHMWPEF), some non-bulletproof fibers such as carbon fiber (CF), high strength polyimide fiber (PIMF), Poly (aryl ester) fiber (LCPF) and ultrahigh modulus polypropylene (Innegra) fiber have joined the ranks of bulletproof fiber because of the great breakthrough in technology. In addition to lighter, thinner, stronger and other directions, diversification and compounding are also the future development direction of bulletproof fiber materials.
【作者单位】: 全国特种合成纤维信息中心;
【分类号】:TB33;TS102
本文编号:2302075
[Abstract]:The expanded application of bulletproof fiber and its composites in the field of military and civil use creates conditions for its large-scale production and cost reduction. The most encouraging improvements in these materials are lighter, thinner and stronger, some of which also lead to longer service life. At present, the mainstream bulletproof fiber is still para-aromatic polyamide fiber (p-ARF) and ultra-high molecular weight polyethylene fiber (UHMWPEF), some non-bulletproof fibers such as carbon fiber (CF), high strength polyimide fiber (PIMF), Poly (aryl ester) fiber (LCPF) and ultrahigh modulus polypropylene (Innegra) fiber have joined the ranks of bulletproof fiber because of the great breakthrough in technology. In addition to lighter, thinner, stronger and other directions, diversification and compounding are also the future development direction of bulletproof fiber materials.
【作者单位】: 全国特种合成纤维信息中心;
【分类号】:TB33;TS102
【相似文献】
相关期刊论文 前10条
1 北田正弘;李大明;葛知青;;复合化创造新功能材料[J];仪表材料;1979年06期
2 李玲艳,艾云龙,程玉桂,刘长虹;MoSi_2及其复合材料的研究进展[J];宇航材料工艺;2005年01期
3 ;新材料[J];中国新技术新产品精选;2002年01期
4 左铁镛;新材料的发展趋势及其主要方向[J];表面工程资讯;2001年01期
5 ;方兴未艾的玻璃纤维材料[J];军民两用技术与产品;2001年01期
6 杜力;;开发高性能复合材料中使用的新型纤维材料[J];今日科技;1991年03期
7 倪莲生;新型无机材料——β-SiC纤维[J];机械工程材料;1981年05期
8 ;中国军机已批量用新复合材料 设计成蜂窝结构[J];玻璃钢/复合材料;2014年07期
9 杨静;朱庆勇;谢铭慧;;纤维表面Zeta电位对多孔纤维材料透湿性能的影响[J];中山大学学报(自然科学版);2010年04期
10 钱世准;;用于复合材料的新型纤维材料[J];建材工业信息;1987年08期
相关重要报纸文章 前1条
1 本报记者 罗兵;传统材料复合化创新是未来发展趋势[N];中国质量报;2013年
相关博士学位论文 前1条
1 左磊;纤维材料热物理性能非稳态测试方法研究[D];东华大学;2011年
,本文编号:2302075
本文链接:https://www.wllwen.com/kejilunwen/cailiaohuaxuelunwen/2302075.html
