搜索

x

留言板

尊敬的读者、作者、审稿人, 关于本刊的投稿、审稿、编辑和出版的任何问题, 您可以本页添加留言。我们将尽快给您答复。谢谢您的支持!

姓名
邮箱
手机号码
标题
留言内容
验证码

场诱导软物质智能材料研究进展

巫金波 温维佳

引用本文:
Citation:

场诱导软物质智能材料研究进展

巫金波, 温维佳

Research progress of field-inducedd soft smart materials

Wu Jin-Bo, Wen Wei-Jia
PDF
导出引用
  • 场诱导软物质智能材料是指一类能够响应场作用并引起整个系统的量乃至质的改变的软物质材料. 在场(磁场、电场、温度或者光等)的诱导下,材料内部微结构发生化学或者物理变化,从而导致材料某些宏观性质(机械、光学等)出现较大的变化,以达到某种智能控制的目的. 本文系统介绍了磁流变液、电流变液以及高分子凝胶等几种典型的场诱导软物质智能材料,回顾了该领域近几年的研究及其应用进展,探讨了研究的前沿问题及发展趋势,特别指出了软物质智能材料的研究及应用呈现出的复杂性和跨学科性,需要各个学科的协同发展,才可能取得突破性进展.
    The field-induced soft smart material is a kind of soft matter whose macroscopic properties (mechanical, or optical) can be significantly and actively controlled and manipulated by external field such as magnetic field, electric field, temperature or light. In this paper, we briefly review the research and application progress of the filed-induced soft smart materials in recent years and discuss the development problems and trend in this research area. In particular, we focus on three typical field-induced soft materials of smart materials: magnetorheological fluid, electrorheological fluid, and temperature and light sensitive polymer gel.
      通信作者: 温维佳, phwen@ust.hk
    • 基金项目: 上海市科委科技基金(批准号:16111107402)资助的课题.
      Corresponding author: Wen Wei-Jia, phwen@ust.hk
    • Funds: Project supported by the Shanghai Committee of Science and Technology, China(Grant No. 16111107402).
    [1]

    de Gennes P G, Badoz J (translated by Lu D W, Tang Y L, Sun D K) 2000 Soft Matter and Hard Science (Hunan: Hunan Education Press) (in Chinese) [P-G. 德热纳, J. 巴杜 著 (卢定伟, 唐玉立, 孙大坤 译) 2000 软物质与硬科学 (湖南: 湖南教育出版社)]

    [2]

    Jiang C B, Zhao X P, Wang S B, Li Y 2006 New Materials Industry Development Report in China-Aerospace Materials Special Issue (in Chinese) [蒋成保, 赵晓鹏, 王树彬, 李岩 2006 中国新材料产业发展报告航空航天材料专辑]

    [3]

    Yao K D, Xu M X 1993 Mater Rev. 9 1 (in Chinese) [姚康德, 许美萱 1993 材料导报 9 1]

    [4]

    Takagi T 1990 J. Intell. Mater. Syst. Struct. 1 149

    [5]

    Osasa Y, Matsuda A 1995 Nature 376 219

    [6]

    Chen L 2004 Intelligent High Polymer Materials (Beijing: Beijing Industry Press) (in Chinese) [陈莉 2004 智能高分子材料 (北京: 化学工业出版社)]

    [7]

    Lyon L A Meng Z, Singh N, Sorrell C D, John A S 2009 Chem. Soc. Rev. 38 865

    [8]

    Lemaire E, Grasselli Y, Bossis G 1992 J. Phys. II (France) 2 359

    [9]

    Rabinow J 1948 AIEE Trans. 67 1308

    [10]

    Morillas J R, Carren-Gonzlez E, de Vicente J 2015 Smart Mater. Struct. 24 125005

    [11]

    Lopez-Lopez M T, Kuzkir P, Meunier A, Bossis G 2009 J. Phys. Conf. Ser. 49 1

    [12]

    Margida J A, Weiss K D, Carlson J D 1996 Int. J. Mod. Phys. B 10 3335

    [13]

    Choi H J, Park B J, You J L, Cho M S 2006 Proc of the 10th Int Conf on ER Fluids and MR Suspensions (Lake Tahoe, USA: World Scientific) p121

    [14]

    Park B J, Park C W, Yang S W, Kim H M, Choi H J 2009 J. Phys. Conf. Ser. 49 1

    [15]

    Jun J B, Uhm S Y, Ryu J H, Suh K D 2005 Coll. Surf. A 260 157

    [16]

    Ulicny J C, Mance A M 2004 Mater. Sci. Eng. A 369 309

    [17]

    Kormann C, Laun H M, Richter H J 1996 Int. J. Mod. Phys. B 10 3167

    [18]

    Shah K, Choi S B, Choi H J 2015 Smart Mater. Struct. 24 057001

    [19]

    Poddar P, Wilson J L, Srikanth H, Yoo J H, Wereley N M, Kotha S, Barghouty L, Radhakrishnan R 2004 J. Nanosci. Nanotechnol. 4 192

    [20]

    Yamanaka S, Abe H, Naito M, Fujimoto T, Kuga Y 2012 Colloids Surf. A: Physicochem. Eng. Asp. 415 239

    [21]

    Lpez-Lpez M T, Vertelov G, Bossis G, Kuzhir P, Durn J D 2007 J. Mater. Chem. 17 3839

    [22]

    Bell R C, Karli J O, Vavreck A N, Zimmerman D T, Ngatu G T, Wereley N M 2008 Smart Mater. Struct. 17 015028

    [23]

    Barber D E, Carlson J D 2009 J. Phys. Conf. Ser. 149 l

    [24]

    Bose H, Roder R 2009 J. Phys.: Conference Ser. 49 1

    [25]

    Fuchs A, Gerdaninejad F, Wang X J, Gregory H H, Hatice G, Cahit E, George K 2004 J. Appl. Polym. Sci. 92 1176

    [26]

    Chin B D, Park J H, Kwon M H, Park O O 2001 Rheol. Acta 40 211

    [27]

    Rosensweig R E 1997 Ferrohydrodynamics (Cambridge: Cambridge University Press)

    [28]

    Skjeltorp A T 1983 Phys. Rev. Lett. 51 2306

    [29]

    Ramos J, de Vicente J, Hidalgo-Alvarez R 2010 Langmuir 26 9334

    [30]

    Rusetski A N, Ruuge E K 1990 J. Magn. Magn. Mater. 85 299

    [31]

    Ganguly R, Gaind A P, Sen S Puri I K 2005 J. Magn. Magn. Mater. 289 331

    [32]

    Sun Y, Kwok Y C, Nguyen N T 2007 Lab on a Chip 7 1012

    [33]

    Montagne F, Mondain-Monval O, Pichot C, Mozzanega H, Elaissari A 2002 J. Magn. Magn. Mater. 250 302

    [34]

    Bibette J 1993 J. Magn. Magn. Mater. 122 37

    [35]

    Tan S H, Nguyen N T 2011 Phys. Rev. E 84 036317

    [36]

    Carlson J D, Catanzarite D M, Clair K A 1996 Proc of the 5th Int Conf on ER Fluids and MR Suspensions and Associated Technology (Singapore: World Scientific) p20

    [37]

    Carlson J D 2000 J. Intell. Mater. Syst. Struct. 10 589

    [38]

    Carlson J D, John C 1998 US Patent 5842547

    [39]

    Carlson J D, Clair St K A, Chrzan M J 1999 US Patent 5878851

    [40]

    Du H, Lam J, Cheung K C, Li W, Zhang N 2013 Smart Mater. Struct. 22 105016

    [41]

    Halsey T C 1992 Science 258 761

    [42]

    Wei C G 2000 Electrorheological Technology: the Mechanism of Material, the Engineering Application (Beijing: Beijing University of Science and Technology Press) (in Chinese) [魏宸官 2000 电流变技术: 机理, 材料, 工程应用 (北京: 北京理工大学出版社)]

    [43]

    Gong L H, Cui Z S 2002 Lubrication Engineering 27 66 (in Chinese) [龚烈航, 崔占山 2002 润滑与密封 27 66]

    [44]

    Lu K Q, Shen R 2007 Physics 36 742 (in Chinese) [陆坤权, 沈容 2007 物理 36 742]

    [45]

    Zhang D H 2011 Lubricating Oil 26 9 (in Chinese) [张东恒 2011 润滑油 26 9]

    [46]

    Winslow W M 1949 J. Appl. Phys. 20 1137

    [47]

    Stangroom J E 1983 Phys. Technol. 14 290

    [48]

    Klass D L, Martinek T W 1967 J. Appl. Phys. 38 67

    [49]

    Block H, Kelly J P 1985 GB Patent 21750510

    [50]

    Lu Y 2009 Mater. Rev. 3 2 (in Chinese) [路阳 2009 材料导报 3 2]

    [51]

    Wen W J, Huang X X, Yang S H, Lu K Q, Sheng P 2003 Nature Mater. 2 727

    [52]

    Seliktar D 2012 Science 336 1124

    [53]

    Liu Z, Liu L, Ju X J, Xie R, Zhang B, Chu L Y 2011 Chem. Commun. 47 12283

    [54]

    Stuart M A C, Huck W T S, Genzer J 2010 Nat. Mater. 9 101

    [55]

    Nagase K, Kobayashi J, Okano T 2009 J. R. Soc. Interface 6 S293

    [56]

    Beebe D J, Moore J S, Bauer J M, Yu Q, Liu R H, Devadoss C, Jo B H 2000 Nature 404 588

    [57]

    Dong L, Agarwal A K, Beebe D J, Jiang H 2006 Nature 442 551

    [58]

    He X M, Aizenberg M, Kuksenok O, Zarzar L D, Shastri A, Balazs A C, Aizenberg J 2012 Nature 487 214

    [59]

    Kumacheva E 2012 Nat. Mater. 11 665

    [60]

    Gong X Q, Li J X, Chen S Y, Wen W J 2009 Appl. Phys. Lett. 95 251907

    [61]

    Li X, Gong X, Yi X, Sheng P, Wen W 2011 Smart Mater. Struct. 20 075005

    [62]

    Juodkazis S, Mukai N, Wakaki R, Yamaguchi A, Matsuo S, Misawa H 2000 Nature 408 178

    [63]

    Wang W, Wang X Z, Cheng F T, Yu Y L, Zhu Y T 2011 Prog. Chem. 23 6 (in Chinese) [王威, 王晓振, 程伏涛, 俞燕蕾, 朱玉田 2011 化学进展 23 6]

    [64]

    Wang C, Zhou B P, Zeng X P, Hong Y Y, Gao Y B, Wen W J 2015 J. Mater. Chem. C 3 177

    [65]

    Wang C, Gao X H, Gao Y B, Cao W B, Tian J X, Wu X X, Ye Z R, Zeng X P, Zhou B P, Wu J B, Fang Z Y, Wan J, Qin J H, Wen W J 2015 J. Mater. Chem. B 3 8115

    [66]

    Chen S Y, Huang X X, Nico F A, van der Vegt, Wen W J, Sheng P 2010 Phys. Rev. Lett. 105 046001

    [67]

    Lee S G, Lee J S, Hwang S H, Yun J Y, Jang J S 2015 ACS Nano 9 4939

    [68]

    Cho C E, Kim J W, Fernandez-Nieves A, Weitz D A 2008 Nano Lett. 8 168

    [69]

    Liu Z, Xie R, Ju X J, Wang W, Chu L Y 2016 Chem. Indust. Engineer. Prog. 35 1812 (in Chinese) [刘壮, 谢锐, 巨晓洁, 汪伟, 褚良银 2016 化工进展 35 1812]

    [70]

    Xia L W, Xie R, Ju X J, Wang W, Chen Q, Chu L Y 2013 Nature Commun. 4 2226

    [71]

    Pelrine R, Kornbluh R, Pei Q, Joseph J 2000 Science 287 836

    [72]

    Opris D M, Molberg M, Walder C, Ko Y S, Fischer B, Nesch F A 2011 Adv. Funct. Mater. 21 3531

  • [1]

    de Gennes P G, Badoz J (translated by Lu D W, Tang Y L, Sun D K) 2000 Soft Matter and Hard Science (Hunan: Hunan Education Press) (in Chinese) [P-G. 德热纳, J. 巴杜 著 (卢定伟, 唐玉立, 孙大坤 译) 2000 软物质与硬科学 (湖南: 湖南教育出版社)]

    [2]

    Jiang C B, Zhao X P, Wang S B, Li Y 2006 New Materials Industry Development Report in China-Aerospace Materials Special Issue (in Chinese) [蒋成保, 赵晓鹏, 王树彬, 李岩 2006 中国新材料产业发展报告航空航天材料专辑]

    [3]

    Yao K D, Xu M X 1993 Mater Rev. 9 1 (in Chinese) [姚康德, 许美萱 1993 材料导报 9 1]

    [4]

    Takagi T 1990 J. Intell. Mater. Syst. Struct. 1 149

    [5]

    Osasa Y, Matsuda A 1995 Nature 376 219

    [6]

    Chen L 2004 Intelligent High Polymer Materials (Beijing: Beijing Industry Press) (in Chinese) [陈莉 2004 智能高分子材料 (北京: 化学工业出版社)]

    [7]

    Lyon L A Meng Z, Singh N, Sorrell C D, John A S 2009 Chem. Soc. Rev. 38 865

    [8]

    Lemaire E, Grasselli Y, Bossis G 1992 J. Phys. II (France) 2 359

    [9]

    Rabinow J 1948 AIEE Trans. 67 1308

    [10]

    Morillas J R, Carren-Gonzlez E, de Vicente J 2015 Smart Mater. Struct. 24 125005

    [11]

    Lopez-Lopez M T, Kuzkir P, Meunier A, Bossis G 2009 J. Phys. Conf. Ser. 49 1

    [12]

    Margida J A, Weiss K D, Carlson J D 1996 Int. J. Mod. Phys. B 10 3335

    [13]

    Choi H J, Park B J, You J L, Cho M S 2006 Proc of the 10th Int Conf on ER Fluids and MR Suspensions (Lake Tahoe, USA: World Scientific) p121

    [14]

    Park B J, Park C W, Yang S W, Kim H M, Choi H J 2009 J. Phys. Conf. Ser. 49 1

    [15]

    Jun J B, Uhm S Y, Ryu J H, Suh K D 2005 Coll. Surf. A 260 157

    [16]

    Ulicny J C, Mance A M 2004 Mater. Sci. Eng. A 369 309

    [17]

    Kormann C, Laun H M, Richter H J 1996 Int. J. Mod. Phys. B 10 3167

    [18]

    Shah K, Choi S B, Choi H J 2015 Smart Mater. Struct. 24 057001

    [19]

    Poddar P, Wilson J L, Srikanth H, Yoo J H, Wereley N M, Kotha S, Barghouty L, Radhakrishnan R 2004 J. Nanosci. Nanotechnol. 4 192

    [20]

    Yamanaka S, Abe H, Naito M, Fujimoto T, Kuga Y 2012 Colloids Surf. A: Physicochem. Eng. Asp. 415 239

    [21]

    Lpez-Lpez M T, Vertelov G, Bossis G, Kuzhir P, Durn J D 2007 J. Mater. Chem. 17 3839

    [22]

    Bell R C, Karli J O, Vavreck A N, Zimmerman D T, Ngatu G T, Wereley N M 2008 Smart Mater. Struct. 17 015028

    [23]

    Barber D E, Carlson J D 2009 J. Phys. Conf. Ser. 149 l

    [24]

    Bose H, Roder R 2009 J. Phys.: Conference Ser. 49 1

    [25]

    Fuchs A, Gerdaninejad F, Wang X J, Gregory H H, Hatice G, Cahit E, George K 2004 J. Appl. Polym. Sci. 92 1176

    [26]

    Chin B D, Park J H, Kwon M H, Park O O 2001 Rheol. Acta 40 211

    [27]

    Rosensweig R E 1997 Ferrohydrodynamics (Cambridge: Cambridge University Press)

    [28]

    Skjeltorp A T 1983 Phys. Rev. Lett. 51 2306

    [29]

    Ramos J, de Vicente J, Hidalgo-Alvarez R 2010 Langmuir 26 9334

    [30]

    Rusetski A N, Ruuge E K 1990 J. Magn. Magn. Mater. 85 299

    [31]

    Ganguly R, Gaind A P, Sen S Puri I K 2005 J. Magn. Magn. Mater. 289 331

    [32]

    Sun Y, Kwok Y C, Nguyen N T 2007 Lab on a Chip 7 1012

    [33]

    Montagne F, Mondain-Monval O, Pichot C, Mozzanega H, Elaissari A 2002 J. Magn. Magn. Mater. 250 302

    [34]

    Bibette J 1993 J. Magn. Magn. Mater. 122 37

    [35]

    Tan S H, Nguyen N T 2011 Phys. Rev. E 84 036317

    [36]

    Carlson J D, Catanzarite D M, Clair K A 1996 Proc of the 5th Int Conf on ER Fluids and MR Suspensions and Associated Technology (Singapore: World Scientific) p20

    [37]

    Carlson J D 2000 J. Intell. Mater. Syst. Struct. 10 589

    [38]

    Carlson J D, John C 1998 US Patent 5842547

    [39]

    Carlson J D, Clair St K A, Chrzan M J 1999 US Patent 5878851

    [40]

    Du H, Lam J, Cheung K C, Li W, Zhang N 2013 Smart Mater. Struct. 22 105016

    [41]

    Halsey T C 1992 Science 258 761

    [42]

    Wei C G 2000 Electrorheological Technology: the Mechanism of Material, the Engineering Application (Beijing: Beijing University of Science and Technology Press) (in Chinese) [魏宸官 2000 电流变技术: 机理, 材料, 工程应用 (北京: 北京理工大学出版社)]

    [43]

    Gong L H, Cui Z S 2002 Lubrication Engineering 27 66 (in Chinese) [龚烈航, 崔占山 2002 润滑与密封 27 66]

    [44]

    Lu K Q, Shen R 2007 Physics 36 742 (in Chinese) [陆坤权, 沈容 2007 物理 36 742]

    [45]

    Zhang D H 2011 Lubricating Oil 26 9 (in Chinese) [张东恒 2011 润滑油 26 9]

    [46]

    Winslow W M 1949 J. Appl. Phys. 20 1137

    [47]

    Stangroom J E 1983 Phys. Technol. 14 290

    [48]

    Klass D L, Martinek T W 1967 J. Appl. Phys. 38 67

    [49]

    Block H, Kelly J P 1985 GB Patent 21750510

    [50]

    Lu Y 2009 Mater. Rev. 3 2 (in Chinese) [路阳 2009 材料导报 3 2]

    [51]

    Wen W J, Huang X X, Yang S H, Lu K Q, Sheng P 2003 Nature Mater. 2 727

    [52]

    Seliktar D 2012 Science 336 1124

    [53]

    Liu Z, Liu L, Ju X J, Xie R, Zhang B, Chu L Y 2011 Chem. Commun. 47 12283

    [54]

    Stuart M A C, Huck W T S, Genzer J 2010 Nat. Mater. 9 101

    [55]

    Nagase K, Kobayashi J, Okano T 2009 J. R. Soc. Interface 6 S293

    [56]

    Beebe D J, Moore J S, Bauer J M, Yu Q, Liu R H, Devadoss C, Jo B H 2000 Nature 404 588

    [57]

    Dong L, Agarwal A K, Beebe D J, Jiang H 2006 Nature 442 551

    [58]

    He X M, Aizenberg M, Kuksenok O, Zarzar L D, Shastri A, Balazs A C, Aizenberg J 2012 Nature 487 214

    [59]

    Kumacheva E 2012 Nat. Mater. 11 665

    [60]

    Gong X Q, Li J X, Chen S Y, Wen W J 2009 Appl. Phys. Lett. 95 251907

    [61]

    Li X, Gong X, Yi X, Sheng P, Wen W 2011 Smart Mater. Struct. 20 075005

    [62]

    Juodkazis S, Mukai N, Wakaki R, Yamaguchi A, Matsuo S, Misawa H 2000 Nature 408 178

    [63]

    Wang W, Wang X Z, Cheng F T, Yu Y L, Zhu Y T 2011 Prog. Chem. 23 6 (in Chinese) [王威, 王晓振, 程伏涛, 俞燕蕾, 朱玉田 2011 化学进展 23 6]

    [64]

    Wang C, Zhou B P, Zeng X P, Hong Y Y, Gao Y B, Wen W J 2015 J. Mater. Chem. C 3 177

    [65]

    Wang C, Gao X H, Gao Y B, Cao W B, Tian J X, Wu X X, Ye Z R, Zeng X P, Zhou B P, Wu J B, Fang Z Y, Wan J, Qin J H, Wen W J 2015 J. Mater. Chem. B 3 8115

    [66]

    Chen S Y, Huang X X, Nico F A, van der Vegt, Wen W J, Sheng P 2010 Phys. Rev. Lett. 105 046001

    [67]

    Lee S G, Lee J S, Hwang S H, Yun J Y, Jang J S 2015 ACS Nano 9 4939

    [68]

    Cho C E, Kim J W, Fernandez-Nieves A, Weitz D A 2008 Nano Lett. 8 168

    [69]

    Liu Z, Xie R, Ju X J, Wang W, Chu L Y 2016 Chem. Indust. Engineer. Prog. 35 1812 (in Chinese) [刘壮, 谢锐, 巨晓洁, 汪伟, 褚良银 2016 化工进展 35 1812]

    [70]

    Xia L W, Xie R, Ju X J, Wang W, Chen Q, Chu L Y 2013 Nature Commun. 4 2226

    [71]

    Pelrine R, Kornbluh R, Pei Q, Joseph J 2000 Science 287 836

    [72]

    Opris D M, Molberg M, Walder C, Ko Y S, Fischer B, Nesch F A 2011 Adv. Funct. Mater. 21 3531

  • [1] 郭金坤, 赵泽佳, 凌进中, 袁影, 王晓蕊. 软物质激光微纳加工技术. 物理学报, 2022, 71(17): 174203. doi: 10.7498/aps.71.20220625
    [2] 闫昭, 赵文静, 王荣瑶. 基于Logistic函数模型的纳米自组装动力学分析. 物理学报, 2016, 65(12): 126101. doi: 10.7498/aps.65.126101
    [3] 陈恩惠, 杨锦鸿, 李栋, 赵亚溥. 软物质中的理性连续介质力学基础. 物理学报, 2016, 65(18): 188103. doi: 10.7498/aps.65.188103
    [4] 吴晨旭, 严大东, 邢向军, 厚美瑛. 软物质主要理论综述. 物理学报, 2016, 65(18): 186102. doi: 10.7498/aps.65.186102
    [5] 王德, 沈容, 刘灿灿, 韦世强, 陆坤权. 纳米TiO2颗粒对电流变悬浮液中硅油的挥发增强效应. 物理学报, 2015, 64(15): 154704. doi: 10.7498/aps.64.154704
    [6] 杨素红, 赵立山, 王强, 沈容, 孙刚, 李晨曦, 陆坤权. 以二氧化钛前驱体为基的电流变液的成分分析和机理研究. 物理学报, 2013, 62(16): 164701. doi: 10.7498/aps.62.164701
    [7] 洪杰, 刘宝龙, 张大义, 马艳红. 具有形状记忆效应的新型智能阻尼材料及其热弹性力学性能研究. 物理学报, 2012, 61(16): 168102. doi: 10.7498/aps.61.168102
    [8] 赵晟, 尹剑波, 赵晓鹏. 金纳米流体的电场可调光学性质. 物理学报, 2010, 59(5): 3302-3308. doi: 10.7498/aps.59.3302
    [9] 王学昭, 沈容, 路阳, 纪爱玲, 孙刚, 陆坤权, 崔平. 极性分子型电流变液导电机理研究. 物理学报, 2010, 59(10): 7144-7148. doi: 10.7498/aps.59.7144
    [10] 张敏梁, 田煜, 蒋继乐, 孟永钢, 温诗铸. 极板形貌修饰对电流变液/极板界面滑移抑制实验研究. 物理学报, 2009, 58(12): 8394-8399. doi: 10.7498/aps.58.8394
    [11] 罗春荣, 王连胜, 郭继权, 黄勇, 赵晓鹏. 电流变液调控的连通树枝状结构左手材料. 物理学报, 2009, 58(5): 3214-3219. doi: 10.7498/aps.58.3214
    [12] 王连胜, 罗春荣, 黄 勇, 赵晓鹏. 基于电流变液的可调谐负磁导率材料. 物理学报, 2008, 57(6): 3571-3577. doi: 10.7498/aps.57.3571
    [13] 黄 敏, 赵晓鹏, 王宝祥, 尹剑波, 曹昌年. 电流变液微波反射可调控性. 物理学报, 2004, 53(6): 1895-1899. doi: 10.7498/aps.53.1895
    [14] 欧阳成. 电流变液系统流动的渐近估计. 物理学报, 2004, 53(6): 1900-1902. doi: 10.7498/aps.53.1900
    [15] 赵晓鹏, 高秀敏, 高向阳, 郜丹军. 固液双相电流变系统流动过程的相转变特性. 物理学报, 2003, 52(2): 405-410. doi: 10.7498/aps.52.405
    [16] 赵晓鹏, 高秀敏, 郜丹军, 钟鸿飞. 颗粒质量导致的电流变液结构演化特征. 物理学报, 2002, 51(5): 1075-1080. doi: 10.7498/aps.51.1075
    [17] 赵晓鹏, 郜丹军. 考虑多颗粒近程相互作用的电流变液泊肃叶流动行为. 物理学报, 2001, 50(6): 1115-1120. doi: 10.7498/aps.50.1115
    [18] 赵晓鹏, 范吉军, 高秀敏, 曹昌年. 电流变液的微波透射调控行为. 物理学报, 2001, 50(7): 1302-1307. doi: 10.7498/aps.50.1302
    [19] 刘立伟, 王作维, 周鲁卫, 王治金, 高广君, 刘晓军. 微晶纤维素电流变液在挤压流中的粘弹性. 物理学报, 2000, 49(9): 1886-1891. doi: 10.7498/aps.49.1886
    [20] 许素娟, 门守强, 王 彪, 陆坤权. TiO2包覆石墨颗粒/硅油电流变液的研究. 物理学报, 2000, 49(11): 2176-2179. doi: 10.7498/aps.49.2176
计量
  • 文章访问数:  7894
  • PDF下载量:  562
  • 被引次数: 0
出版历程
  • 收稿日期:  2016-06-28
  • 修回日期:  2016-08-02
  • 刊出日期:  2016-09-05

/

返回文章
返回