喷涂聚脲弹性体抗爆抗冲击性能研究进展
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摘要
以喷涂聚脲弹性体抗爆抗冲击性能研究为重点,从非建筑构件、建筑构件以及LS–DYNA有限元模拟三个方面,综述了喷涂聚脲弹性体在爆炸冲击载荷作用下的防护研究进展,简要介绍了喷涂聚脲弹性体的研究成果和实际应用情况,指出了喷涂聚脲弹性体在结构背面加固时突显出的优异抗爆性能和吸能效率,最后指出了喷涂聚脲弹性体抗爆抗冲击性能研究存在的问题以及今后的发展方向。
Taking the blast mitigation and the shock resistance performance of spray polyurea elastomer as research object,the protective measures under the blast-impact load were reviewed from three aspects of the nonstructural components, the building components and the ?nite element analysis. The research achievement and the practical application of the spray polyurea elastomer were mainly described. The excellent blast mitigation performance and energy absorption ef?ciency of the spray polyurea elastomer when it is strengthened on the back side of the structures were pointed out. In the end,the some existing problems and the future directions of the research on blast mitigation and the shock resistance performance of spray polyurea elastomer were presented.
Taking the blast mitigation and the shock resistance performance of spray polyurea elastomer as research object,the protective measures under the blast-impact load were reviewed from three aspects of the nonstructural components, the building components and the ?nite element analysis. The research achievement and the practical application of the spray polyurea elastomer were mainly described. The excellent blast mitigation performance and energy absorption ef?ciency of the spray polyurea elastomer when it is strengthened on the back side of the structures were pointed out. In the end,the some existing problems and the future directions of the research on blast mitigation and the shock resistance performance of spray polyurea elastomer were presented.
引文
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[3]Li Jun,et al.International Journal of Impact Engineering,2017,110:242-254.
[4]Qi Chang,et al.Composite Structures,2017,180:161-178.
[5]Qu Yandong,et al.Construction and Building Materials,2017,156:692-707.
[6]Zheng Cheng,et al.International Journal of Impact Engineering,2018,113:144-160.
[7]Phadnis V A,et al.Materials&Design,2014,57:719-727.
[8]Alsayed S H,et al.Construction and Building Materials,2016,115:438-451.
[9]Guo Zhanggen,et al.Materials and Structures,2 0 1 7,50(6):doi:10.1617/s11527-017-1107-6.
[10]郭磊.砌体填充墙抗爆加固系统的研究[D].长沙:湖南大学,2012.Guo Lei.Research of blast-retrofit infilled masonry walls[D].Changsha:Hunan University,2012.
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[13]黄微波.CN01114996.7[P].2001-05-30.Huang Weibo.CN01114996.7[P].2001-05-30.
[14]黄微波,等.高分子材料科学与工程,1992(4):42-44.Huang Weibo,et al.Polymeric Materials Science and Engineering,1992(04):42-44.
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[16]黄微波,等.上海涂料,2011,49(2):42-47.Huang Weibo,et al.Shanghai Coatings,2011,49(2):42-47.
[17]黄微波,等.高分子材料科学与工程,1995(2):102-105.Huang Weibo,et al.Polymeric Materials Science and Engineering,1995(2):102-105.
[18]黄微波,等.高分子材料科学与工程,1996(5):137-139.Huang Weibo,et al.Polymeric Materials Science and Engineering,1996(5):137-139.
[19]黄微波.上海涂料,2009,47(5):1-4.Huang Weibo.Shanghai Coatings,2009,47(5):1-4.
[20]黄微波,等.现代涂料与涂装,2012,15(8):11-15.Huang Weibo,et al.Modern Paint&Finishing,2012,15(8):11-15.
[21]黄阳洋,等.兵器装备工程学报,2018,39(4):57-60.Huang Yangyang,et al.Journal of Ordnance Equipment Engineering,2018,39(4):57-60.
[22]Saba N,et al.Construction and Building Materials,2016,106:149-159.
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[37]黄微波,等.新型建筑材料,2012,39(12):66-69.Huang Weibo,et al.New Building Materials,2012,39(12):66-69.
[38]Huang Weibo,et al.Journal of Applied Polymer Science,1993,50(2):277-283.
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[41]吕平,等.腐蚀科学与防护技术,2017,29(3):261-264.Lyu Ping,et al.Corrosion Science and Protection Technology,2017,29(3):261-264.
[42]黄微波.CN91105484.7[P].1991-08-14.Huang Weibo.CN91105484.7[P].1991-08-14.
[43]黄微波.CN93107379.0[P].1993-06-26.Huang Weibo.CN93107379.0[P].1993-06-26.
[44]Davidson J S,et al.Journal of Structural Engineering,2005,131(8):1 194-1 205.
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[46]Ha J H,et al.Composite Structures,2011,93(8):2 070-2 082.
[47]Wang Junguo,et al.Composites Part B:Engineering,2017,128:174-181.
[48]张青艳,等.工程力学,2016,33(4):205-209.Zhang Qingyan,et al.Engineering Mechanics,2016,33(4):205-209.
[49]Iqbal N,et al.Construction and Building Materials,2018,175:682-690.
[50]Tran P,et al.Composite Structures,2016,153:108-122.
[51]Mohotti D,et al.Materials and Design,2015,82:1-17.
[52]Mohotti D,et al.Materials and Design,2013,52:1-16.
[53]戴平仁,等.工程塑料应用,2017,45(12):70-74.Dai Pingren,et al.Engineering Plastics Application,2017,45(12):70-74.
[54]Yang Y,et al.Engineering Structures,2011,33(10):2 781-2 793.
[55]宋彬,等.振动与冲击,2016,35(7):138-144.Song Bin,et al.Journal of Vibration and Shock,2016,35(7):138-144.
[56]廖瑜,等.兵工学报,2018,39(10):1 988-1 996.Liao Yu,et al.Acta Armamentarii,2018,39(10):1 988-1 996.
[57]Samiee A,et al.Mechanics of Materials,2013,64(9):1-10.
[58]Mohotti D,et al.Materials and Design,2014,56:696-713.
[59]Xue Liang,et al.Mechanics of Materials,2010,42(11):981-1 003.
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[61]翟文,等.兵工自动化,2018,37(10):65-69.Zhai Wen,et al.Ordnance Industry Automation,2018,37(10):65-69.
[62]Ghaderi M,et al.Cumhuriyet Science Journalc,2015,36(4):462-477.
[63]蔡桂杰.弹性体涂覆钢筋混凝土板抗爆作用设计方法研究[D].太原:中北大学,2015.Cai Guijie.The design method of the reinforced concrete plate coated polyurea under the action of explosion[D].Taiyuan:North University of China,2015.
[64]黄华,等.振动与冲击,2013,32(19):131-138.Huang Hua,et al.Journal of Vibration and Shock,2013,32(19):131-138.
[65]许三罗,等.解放军理工大学学报:自然科学版,2010,11(3):306-311.Xu Sanluo,et al.Journal of PLA University of Science and Technology:Natural Science Edition,2010,11(3):306-311.
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