悬浮液凝固研究进展
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摘要
悬浮液凝固是将固体颗粒均匀分散于液体中,并对液体进行凝固.它涉及冷冻铸造法多孔材料制备、冻土冻胀、海上浮冰、生物组织冷藏等多个学科和领域.近年来通过悬浮液凝固的方法,人们相继开发出了众多性能优异的新材料,这更为悬浮液凝固的研究注入了新的活力.悬浮液凝固过程中存在众多不同于传统合金凝固的独特现象,如颗粒密堆层、层片晶组织、周期性冰透镜体组织等,但这些凝固微观组织的形成机理尚不清楚.揭示颗粒对悬浮液凝固界面形态演化的影响机理,建立悬浮液体系的凝固理论,不仅帮助人们理解冻土冻胀等自然现象,也为高性能材料的制备与开发提供理论依据.本文首先回顾了悬浮液凝固的研究历史,然后对当前悬浮液凝固微观组织及颗粒动态堆积等方面的研究进展进行述评,并简要介绍本课题组近年来在悬浮液凝固方面的工作进展,最后对悬浮液凝固研究的未来发展进行了展望.
Suspensions include solvent and uniformly dispersed particles. Solidification of suspensions is to freeze the solvent while numerous particles disturb the pattern formation during the growth of the solid/liquid interface. It is a new interdisciplinary subject, involving the fields of freeze-casting porous materials, frost heaving, sea ice and biological tissue engineering and so on. Especially in recent years, many advanced materials with excellent properties were developed based on the processing of suspension solidification. Experimental phenomenon in suspension solidification is different from that in alloy solidification, such as the close-packed particle layer and self assembly, the ice lamellae structure and the periodic ice lenses and so on. Up to now, the formation mechanisms of these microstructures are still unclear. In this paper, we first review the historical development of suspension solidification in theory and in experiment. Then we demonstrate some recent progress of microstructural evolution and dynamical particle packing of suspension solidification.Finally, the outlooks of the future study on solidification of suspensions are also presented.
Suspensions include solvent and uniformly dispersed particles. Solidification of suspensions is to freeze the solvent while numerous particles disturb the pattern formation during the growth of the solid/liquid interface. It is a new interdisciplinary subject, involving the fields of freeze-casting porous materials, frost heaving, sea ice and biological tissue engineering and so on. Especially in recent years, many advanced materials with excellent properties were developed based on the processing of suspension solidification. Experimental phenomenon in suspension solidification is different from that in alloy solidification, such as the close-packed particle layer and self assembly, the ice lamellae structure and the periodic ice lenses and so on. Up to now, the formation mechanisms of these microstructures are still unclear. In this paper, we first review the historical development of suspension solidification in theory and in experiment. Then we demonstrate some recent progress of microstructural evolution and dynamical particle packing of suspension solidification.Finally, the outlooks of the future study on solidification of suspensions are also presented.
引文
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[18]Bai H,Polini A,Delattre B,Tomsia A P 2013 Chem.Mater.25 4551
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[22]Bai H,Wang D,Delattre B,Gao W,de Coninck J,Li S,Tomsia A P 2015 Acta Biomater.20 113
[23]Munch E,Launey M E,Alsem D H,Saiz E,Tomsia AP,Ritchie R O 2008 Science 322 1516
[24]Garvin J,Yang Y,Udaykumar H 2007 Int.J.Heat Mass Trans.50 2969
[25]Rempel A W 2011 Quaternary Res.75 316
[26]Zhu D M,Vilches O E,Dash J G,Sing B,Wettlaufer JS 2000 Phys.Rev.Lett.85 4908
[27]Deville S,Maire E,Bernard-Granger G,Lasalle A,Bogner A,Gauthier C,Leloup J,Guizard C 2009 Nature Mater.8 966
[28]Zuo K H,Zeng Y P,Jiang D 2010 Mater.Sci.Eng.:C30 283
[29]Wegst U G K,Ashby M F 2004 Philos.Mag.84 2167
[30]Peppin S,Elliott J,Worster M G 2006 J.Fluid Mech.554 147
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[32]Zhang Y 2013 Ph.D.Dissertation(Changsha:Central South University)(in Chinese)[张妍2013博士学位论文(长沙:中南大学)]
[33]Dash J G,Rempel A W,Wettlaufer J S 2006 Rev.Mod.Phys.78 695
[34]Wettlaufer J S,Worster M G,Wilen L A 1997 J.Phys.Chem.B 101 6137
[35]Corte A E 1962 J.Geophys.Res.67 1085
[36]Uhlmann D R,Chalmers B,Jackson K 1964 J.Appl.Phys.35 2986
[37]CisséJ,Bolling G F 1971 J.Cryst.Growth 10 67
[38]K?ber C,Rau G,Cosman M D,Cravalho E G 1985 J.Cryst.Growth 72 649
[39]Shangguan D,Ahuja S,Stefanescu D M 1992 Metall.Mater.Trans.A 23 669
[40]Rempel A,Worster M G 1999 J.Cryst.Growth 205 427
[41]Rempel A W,Wettlaufer J S,Worster M G 2001 Phys.Rev.Lett.87 088501
[42]Rempel A W,Worster M G 2001 J.Cryst.Growth 223420
[43]Dedovets D,Monteux C,Deville S 2018 Science 360 303
[44]Peppin S S,Worster M G,Wettlaufer J 2007 Proc.R.Soc.A 463 723
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[47]Style R W,Peppin S S L,Cocks A C F,Wettlaufer J S2011 Phys.Rev.E 84 041402
[48]Kozlowski T 2009 Cold Reg.Sci.Technol.59 25
[49]Carnahan N F,Starling K E 1969 J.Chem.Phys.51635
[50]Peppin S,Wettlaufer J,Worster M 2008 Phys.Rev.Lett.100 238301
[51]Kozlowski T 2004 Cold Reg.Sci.Technol.38 93
[52]You J,Wang L,Wang Z,Li J,Wang J,Lin X,Huang W 2015 Rev.Sci.Instrum.86 084901
[53]Bodnar R 1993 Geochim.Cosmochimica Acta 57 683
[54]Mullins W W,Sekerka R F 1964 J.Appl.Phys.35 444
[55]Wang L,You J,Wang Z,Wang J,Lin X 2016 Sci.Rep.6 23358
[56]Taber S 1929 J.Geol.37 428
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[58]Rempel A W 2012 Vadose Zone J.11 1
[59]Rempel A W,Wettlaufer J,Worster M 2004 J.Fluid Mech.498 227
[60]Nixon J F 1991 Can.Geotech.J.28 843
[61]Anderson A M,Worster M G 2012 Langmuir 28 16512
[62]You J,Wang Z,Worster M G 2018 Acta Mater.157 288
[63]Schollick J M H,Style R W,Curran A,Wettlaufer J S,Dufresne E R,Warren P B,Velikov K P,Dullens R PA,Aarts D G A L 2016 J.Phys.Chem.B 120 3941
[64]Saint-Michel B,Georgelin M,Deville S,Pocheau A 2017Langmuir 33 5617
[65]Jackson K A,Chalmers B 1958 J.Appl.Phys.29 1178
[66]Fowler A C 1989 SIAM J.Appl.Math.49 991
[67]O’Neill K,Miller R D 1985 Water Resour.Res.21 281
[68]Watanabe K,Mizoguchi M 2000 J.Cryst.Growth 213135
[69]Watanabe K,Muto Y,Mizoguchi M 2001 Cryst.Growth Des.1 207
[70]Watanabe K,Mizoguchi M 2002 Cold Reg.Sci.Technol.34 103
[71]Watanabe K 2002 J.Cryst.Growth 237 2194
[72]Shanti N O,Araki K,Halloran J W 2006 J.Am.Ceram.Soc.89 2444
[73]Sylvain D,Sylvain M,Jordi S 2015 Sci.Technol.Adv.Matter 16 043501
[74]Barr S A,Luijten E 2010 Acta Mater.58 709
[75]You J,Wang J,Wang L,Wang Z,Wang Z,Li J,Lin X2017 Colloid.Surface A 531 93
[76]Kumaraswamy G,Biswas B,Choudhury C K 2016 Faraday Discuss.186 61
[77]You J,Wang J,Wang L,Wang Z,Li J,Lin X 2018Colloid.Surface A 543 126
[78]You J,Wang J,Wang L,Wang Z,Li J,Lin X 2016 Chin.Phys.B 25 128202
[2]Deville S 2013 J.Mater.Res.28 2202
[3]Wettlaufer J S,Worster M G 2006 Annu.Rev.Fluid Mech.38 427
[4]Liu G,Yan Y 2014 J.Inorg.Mater.29 571(in Chinese)[刘岗,严岩2014无机材料学报29 571]
[5]Sun Y 2015 Ph.D.Dissertation(Beijing:University of Science&Technology Beijing)(in Chinese)[孙阳2015博士学位论文(北京:北京科技大学)]
[6]Peppin S S L,Style R W 2013 Vadose Zone J.12 1
[7]Zhang L,Ma W,Yang C,Yuan C 2014 Eng.Geol.181233
[8]Liu J,Wickramaratne N P,Qiao S Z,Jaroniec M 2015Nat.Mater.14 763
[9]Xia Z,Yu X,Jiang X,Brody H D,Rowe D W,Wei M2013 Acta Biomater.9 7308
[10]Jia L,Wang L L,Shen J N,Zhang Z M,Li J J,Wang J C,Wang Z J 2017 Acta Phys.Sin.66 196402(in Chinese)[贾琳,王理林,申洁楠,张忠明,李俊杰,王锦程,王志军2017物理学报66 196402]
[11]Wegst U G K,Bai H,Saiz E,Tomsia A P,Ritchie R O2015 Nat.Mater.14 23
[12]Deville S 2008 Adv.Eng.Matter 10 155
[13]Youssef Y M,Dashwood R J,Lee P D 2005 Composites Part A 36 747
[14]Stefanescu D M,Juretzko F R,Catalina A,Dhindaw B,Sen S,Curreri P A 1998 Metall.Mater.Trans.A 291697
[15]You J X,Wang Z J,Li J J,Wang J C 2015 Chin.Phys.B 24 078107
[16]You J,Wang J,Wang L,Wang Z,Li J,Lin X 2018Colloid.Surface A 553 681
[17]Mukai S R,Nishihara H,Tamon H 2004 Chem.Commun.7 874
[18]Bai H,Polini A,Delattre B,Tomsia A P 2013 Chem.Mater.25 4551
[19]Rempel A W 2010 J.Glaciol.56 1122
[20]Hunger P M,Donius A E,Wegst U G K 2013 Acta Biomater.9 6338
[21]Roberts A D,Li X,Zhang H 2014 Chem.Soc.Rev.434341
[22]Bai H,Wang D,Delattre B,Gao W,de Coninck J,Li S,Tomsia A P 2015 Acta Biomater.20 113
[23]Munch E,Launey M E,Alsem D H,Saiz E,Tomsia AP,Ritchie R O 2008 Science 322 1516
[24]Garvin J,Yang Y,Udaykumar H 2007 Int.J.Heat Mass Trans.50 2969
[25]Rempel A W 2011 Quaternary Res.75 316
[26]Zhu D M,Vilches O E,Dash J G,Sing B,Wettlaufer JS 2000 Phys.Rev.Lett.85 4908
[27]Deville S,Maire E,Bernard-Granger G,Lasalle A,Bogner A,Gauthier C,Leloup J,Guizard C 2009 Nature Mater.8 966
[28]Zuo K H,Zeng Y P,Jiang D 2010 Mater.Sci.Eng.:C30 283
[29]Wegst U G K,Ashby M F 2004 Philos.Mag.84 2167
[30]Peppin S,Elliott J,Worster M G 2006 J.Fluid Mech.554 147
[31]Anderson A M,Worster M G 2014 J.Fluid Mech.758786
[32]Zhang Y 2013 Ph.D.Dissertation(Changsha:Central South University)(in Chinese)[张妍2013博士学位论文(长沙:中南大学)]
[33]Dash J G,Rempel A W,Wettlaufer J S 2006 Rev.Mod.Phys.78 695
[34]Wettlaufer J S,Worster M G,Wilen L A 1997 J.Phys.Chem.B 101 6137
[35]Corte A E 1962 J.Geophys.Res.67 1085
[36]Uhlmann D R,Chalmers B,Jackson K 1964 J.Appl.Phys.35 2986
[37]CisséJ,Bolling G F 1971 J.Cryst.Growth 10 67
[38]K?ber C,Rau G,Cosman M D,Cravalho E G 1985 J.Cryst.Growth 72 649
[39]Shangguan D,Ahuja S,Stefanescu D M 1992 Metall.Mater.Trans.A 23 669
[40]Rempel A,Worster M G 1999 J.Cryst.Growth 205 427
[41]Rempel A W,Wettlaufer J S,Worster M G 2001 Phys.Rev.Lett.87 088501
[42]Rempel A W,Worster M G 2001 J.Cryst.Growth 223420
[43]Dedovets D,Monteux C,Deville S 2018 Science 360 303
[44]Peppin S S,Worster M G,Wettlaufer J 2007 Proc.R.Soc.A 463 723
[45]You J,Wang L,Wang Z,Li J,Wang J,Lin X,Huang W 2016 Sci.Rep.6 28434
[46]Waschkies T,Oberacker R,Hoffmann M J 2011 Acta Mater.59 5135
[47]Style R W,Peppin S S L,Cocks A C F,Wettlaufer J S2011 Phys.Rev.E 84 041402
[48]Kozlowski T 2009 Cold Reg.Sci.Technol.59 25
[49]Carnahan N F,Starling K E 1969 J.Chem.Phys.51635
[50]Peppin S,Wettlaufer J,Worster M 2008 Phys.Rev.Lett.100 238301
[51]Kozlowski T 2004 Cold Reg.Sci.Technol.38 93
[52]You J,Wang L,Wang Z,Li J,Wang J,Lin X,Huang W 2015 Rev.Sci.Instrum.86 084901
[53]Bodnar R 1993 Geochim.Cosmochimica Acta 57 683
[54]Mullins W W,Sekerka R F 1964 J.Appl.Phys.35 444
[55]Wang L,You J,Wang Z,Wang J,Lin X 2016 Sci.Rep.6 23358
[56]Taber S 1929 J.Geol.37 428
[57]Taber S 1930 J.Geol.38 303
[58]Rempel A W 2012 Vadose Zone J.11 1
[59]Rempel A W,Wettlaufer J,Worster M 2004 J.Fluid Mech.498 227
[60]Nixon J F 1991 Can.Geotech.J.28 843
[61]Anderson A M,Worster M G 2012 Langmuir 28 16512
[62]You J,Wang Z,Worster M G 2018 Acta Mater.157 288
[63]Schollick J M H,Style R W,Curran A,Wettlaufer J S,Dufresne E R,Warren P B,Velikov K P,Dullens R PA,Aarts D G A L 2016 J.Phys.Chem.B 120 3941
[64]Saint-Michel B,Georgelin M,Deville S,Pocheau A 2017Langmuir 33 5617
[65]Jackson K A,Chalmers B 1958 J.Appl.Phys.29 1178
[66]Fowler A C 1989 SIAM J.Appl.Math.49 991
[67]O’Neill K,Miller R D 1985 Water Resour.Res.21 281
[68]Watanabe K,Mizoguchi M 2000 J.Cryst.Growth 213135
[69]Watanabe K,Muto Y,Mizoguchi M 2001 Cryst.Growth Des.1 207
[70]Watanabe K,Mizoguchi M 2002 Cold Reg.Sci.Technol.34 103
[71]Watanabe K 2002 J.Cryst.Growth 237 2194
[72]Shanti N O,Araki K,Halloran J W 2006 J.Am.Ceram.Soc.89 2444
[73]Sylvain D,Sylvain M,Jordi S 2015 Sci.Technol.Adv.Matter 16 043501
[74]Barr S A,Luijten E 2010 Acta Mater.58 709
[75]You J,Wang J,Wang L,Wang Z,Wang Z,Li J,Lin X2017 Colloid.Surface A 531 93
[76]Kumaraswamy G,Biswas B,Choudhury C K 2016 Faraday Discuss.186 61
[77]You J,Wang J,Wang L,Wang Z,Li J,Lin X 2018Colloid.Surface A 543 126
[78]You J,Wang J,Wang L,Wang Z,Li J,Lin X 2016 Chin.Phys.B 25 128202
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