智能高分子材料在建筑工程中的应用
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摘要
综述了智能高分子材料在建筑工程中的应用。自修复型高分子材料可大大降低建筑工程的生产成本,同时提高建筑物的安全性和环保性;导电高分子材料可实现光能与电能、热能与电能的相互转化,为建筑物提供能源;环境敏感型高分子材料则会根据环境变化改变自身性能,从而起到美化建筑物、保护居民隐私和保温等作用。智能高分子材料应用于建筑工程中可以在很大程度上提高建筑物的智能化和人性化,改善居民的生活环境。
The application of intelligent polymer materials in construction engineering was summarized. The self-healing polymer materials were environmental friendly and could reduce the cost in construction and improve the safety. The conversion of light energy and electric energy,thermal energy and electrical energy could be realized by conductive polymer material. Environment sensitive polymer material could change its performance according to the change of the environment,and showed excellent properties on protection of privacy and improved heat preservation effect. When the intelligent polymer materials were used in building engineering,the intelligent and humane of buildings as well as the living environment could be improved greatly.
The application of intelligent polymer materials in construction engineering was summarized. The self-healing polymer materials were environmental friendly and could reduce the cost in construction and improve the safety. The conversion of light energy and electric energy,thermal energy and electrical energy could be realized by conductive polymer material. Environment sensitive polymer material could change its performance according to the change of the environment,and showed excellent properties on protection of privacy and improved heat preservation effect. When the intelligent polymer materials were used in building engineering,the intelligent and humane of buildings as well as the living environment could be improved greatly.
引文
[1]郭晓飞.大科技,2016(3):294.Guo Xiaofei.Super Science,2016(3):294.
[2]武帅,等.化工设计通讯,2016,42(4):82.Wu Shuai,et al.Chemical Engineering Design Communications,2016,42(4):82.
[3]王市伟.化工管理,2016,25:123.Wang Shiwei.Chemical Engineering Management,2016,25:123.
[4]赵帅国,等.现代塑料加工应用,2016,28(1):60–63.Zhao Shuaiguo,et al.Modern Plastics Processing and Applications,2016,28(1):60–63.
[5]李洋,等.合成橡胶工业,2016,39(2):125–128.Li Yang,et al.China Synthetic Rubber Industry,2016,39(2):125–
[6]赵浩然,等.高分子材料科学与工程,2016(3):184–190.Zhao Haoran,et al.Polymer Materials Science and Engineering,2016(3):184–190.
[7]曹志菲.科技尚品,2016(7):40.Cao Zhifei.Premiere,2016(7):40.
[8]吕洋,等.科技视界,2013,32:198.Lyu Yang,et al.Science&Technology Vision,2013,32:198.
[9]汪华莉.合成树脂及塑料,2016,33(3):89–92.Wang Huali.China Synthetic Resin and Plastics,2016,33(3):89–92.
[10]杨勇.江西建材,2016,19:6–7.Yang Yong.Jiangxi Building Materials,2016,19:6–7.
[11]White S R,et al.Nature,2001,409:794–797.
[12]Cordier P,et al.Nature,2008,451:977–980.
[13]Herbst F,et al.Polym Chem,2012,3:3 084–3 092.
[14]Chen Yulin.Nat Chem,2012,4:467–472.
[15]Hentschel J,et al.Angew Chem Int Ed,2012,51:10 561–10 565.
[16]Burnworth M,et al.Nature,2011,472:334–337.
[17]Mozhdehi D,et al.J Am Chem Soc,2014,136:16 128–16 131.
[18]Grimsdale A C,et al.Chem Rev,2009,109(3):897–1 091.
[19]丁然.有机晶体电致发光器件制备与特性分析[D].长春:吉林大学,2015.Ding Ran.Fabrication and characteristics of organic lightemitting devices based on organic semiconductor crystals[D].Changchun:Jilin University,2015.
[20]Zhang Hao,et al.Polym Int,2015,64:957–962.
[21]曾望东,等.广州化工,2010,38(7):43–46.Zeng Wangdong,et al.Guangzhou Chemical Industry,2010,38(7):43–46.
[22]李永玺,等.功能高分子学报,2014,27(4):432–452.Li Yongxi,et al.Journal of Functional Polymers,2014,27(4):432–452.
[23]李永舫.高分子通报,2011(10):33–49.Li Yongfang.Polymer Bulletin,2011(10):33–49.
[24]Burroughes J H,et al.Nature,1990,347:539–541.
[25]杨正龙,等.化学进展,2011(12):2 607–2 616.Yang Zhenglong,et al.Progress in Chemistry,2011(12):2 607–2 616.
[26]Dou Letian,et al.Nature Photonics,2012,6:180–185.
[27]马一平,等.建筑材料学报,2001,4(3):211–218.Ma Yiping,et al.Chinese Journal of Building Materials,2001,4(3):211–218.
[28]陈振,等.高分子通报,2011(4):156–163.Chen Zhen,et al.Chinese Polymer Bulletin,2011(4):156–163.
[29]韩晶,等.材料导报,2009,23(15):44–48.Han Jing,et al.Materials Review,2009,23(15):44–48.
[30]彭雪峰,等.广州化工,2016(4):4–6.Peng Xuefeng,et al.Guangzhou Chemical Industry,2016(4):4–6.
[31]Lee J,et al.Nature Communication,2014,5(4):3 736.
[32]王市伟.化工管理,2016,25:123.Wang Shiwei.Chemical Engineering Management,2016,25:123.
[33]罗超云,等.化工新型材料,2010,38(7):100–102.Luo Chaoyun,et al.New Chemical Materials,2010,38(7):100–102.
[34]周柱武.新型相变保温材料的研制与性能[D].合肥:合肥工业大学,2014.Zhou Zhuwu.Preparation and properties of new phase change thermal insulation material[D].Hefei:Hefei University of Technology,2014.
[35]苏磊静.石蜡复合定形相变储能材料的结构性能研究[D].北京:北京化工大学,2013.Su Leijing.Research on structure and performance of paraffin composite shape-stabilized phase change energy storage materials[D].Beijing:Beijing University of Chemical Technology,2013.
[2]武帅,等.化工设计通讯,2016,42(4):82.Wu Shuai,et al.Chemical Engineering Design Communications,2016,42(4):82.
[3]王市伟.化工管理,2016,25:123.Wang Shiwei.Chemical Engineering Management,2016,25:123.
[4]赵帅国,等.现代塑料加工应用,2016,28(1):60–63.Zhao Shuaiguo,et al.Modern Plastics Processing and Applications,2016,28(1):60–63.
[5]李洋,等.合成橡胶工业,2016,39(2):125–128.Li Yang,et al.China Synthetic Rubber Industry,2016,39(2):125–
[6]赵浩然,等.高分子材料科学与工程,2016(3):184–190.Zhao Haoran,et al.Polymer Materials Science and Engineering,2016(3):184–190.
[7]曹志菲.科技尚品,2016(7):40.Cao Zhifei.Premiere,2016(7):40.
[8]吕洋,等.科技视界,2013,32:198.Lyu Yang,et al.Science&Technology Vision,2013,32:198.
[9]汪华莉.合成树脂及塑料,2016,33(3):89–92.Wang Huali.China Synthetic Resin and Plastics,2016,33(3):89–92.
[10]杨勇.江西建材,2016,19:6–7.Yang Yong.Jiangxi Building Materials,2016,19:6–7.
[11]White S R,et al.Nature,2001,409:794–797.
[12]Cordier P,et al.Nature,2008,451:977–980.
[13]Herbst F,et al.Polym Chem,2012,3:3 084–3 092.
[14]Chen Yulin.Nat Chem,2012,4:467–472.
[15]Hentschel J,et al.Angew Chem Int Ed,2012,51:10 561–10 565.
[16]Burnworth M,et al.Nature,2011,472:334–337.
[17]Mozhdehi D,et al.J Am Chem Soc,2014,136:16 128–16 131.
[18]Grimsdale A C,et al.Chem Rev,2009,109(3):897–1 091.
[19]丁然.有机晶体电致发光器件制备与特性分析[D].长春:吉林大学,2015.Ding Ran.Fabrication and characteristics of organic lightemitting devices based on organic semiconductor crystals[D].Changchun:Jilin University,2015.
[20]Zhang Hao,et al.Polym Int,2015,64:957–962.
[21]曾望东,等.广州化工,2010,38(7):43–46.Zeng Wangdong,et al.Guangzhou Chemical Industry,2010,38(7):43–46.
[22]李永玺,等.功能高分子学报,2014,27(4):432–452.Li Yongxi,et al.Journal of Functional Polymers,2014,27(4):432–452.
[23]李永舫.高分子通报,2011(10):33–49.Li Yongfang.Polymer Bulletin,2011(10):33–49.
[24]Burroughes J H,et al.Nature,1990,347:539–541.
[25]杨正龙,等.化学进展,2011(12):2 607–2 616.Yang Zhenglong,et al.Progress in Chemistry,2011(12):2 607–2 616.
[26]Dou Letian,et al.Nature Photonics,2012,6:180–185.
[27]马一平,等.建筑材料学报,2001,4(3):211–218.Ma Yiping,et al.Chinese Journal of Building Materials,2001,4(3):211–218.
[28]陈振,等.高分子通报,2011(4):156–163.Chen Zhen,et al.Chinese Polymer Bulletin,2011(4):156–163.
[29]韩晶,等.材料导报,2009,23(15):44–48.Han Jing,et al.Materials Review,2009,23(15):44–48.
[30]彭雪峰,等.广州化工,2016(4):4–6.Peng Xuefeng,et al.Guangzhou Chemical Industry,2016(4):4–6.
[31]Lee J,et al.Nature Communication,2014,5(4):3 736.
[32]王市伟.化工管理,2016,25:123.Wang Shiwei.Chemical Engineering Management,2016,25:123.
[33]罗超云,等.化工新型材料,2010,38(7):100–102.Luo Chaoyun,et al.New Chemical Materials,2010,38(7):100–102.
[34]周柱武.新型相变保温材料的研制与性能[D].合肥:合肥工业大学,2014.Zhou Zhuwu.Preparation and properties of new phase change thermal insulation material[D].Hefei:Hefei University of Technology,2014.
[35]苏磊静.石蜡复合定形相变储能材料的结构性能研究[D].北京:北京化工大学,2013.Su Leijing.Research on structure and performance of paraffin composite shape-stabilized phase change energy storage materials[D].Beijing:Beijing University of Chemical Technology,2013.