力学超材料的构筑及其超常新功能
|
摘要
力学超材料是具有反直觉力学性质的人工微结构,其性能取决于人工原子的几何结构而不是材料组分。典型的力学超材料通常与4个弹性常数相关联:杨氏模量E,剪切模量G,体模量K和泊松比v。按所调控弹性常数的不同,将几何结构种类繁多的力学超材料分类为负泊松比拉胀材料(v<0,G>>K)、剪切模量消隐五模式反胀材料(G< Mechanical metamaterials are manmade structures with counterintuitive mechanical properties that originate in the geometry of their unit cell instead of the properties of each component. The typical mechanical metamaterials are generally associated with the four elastic constants: Young's modulus E,shear modulus G,bulk modulus K and Poisson's ratio v.Here a clear classification of mechanical metamaterials is established based on the tuning elastic constants. Mechanical metamaterials can be divided into negative Poisson's ratio auxetic metamaterials(υ<0,G>>K),pentamode metamaterials(G<
引文
[1] Zhou Ji(周济). Merging of Metamaterials and Conventional Materials(超材料与自然材料的融合)[M]. Beijing:Science Press,2016.
[2] Yu Xianglong(于相龙),Zhou Ji(周济). Journal of Materials Engineering(材料工程)[J],2016,44(7):119-128.
[3] Ruan Juqi(阮居祺),Lu Minghui(卢明辉),Chen Yanfeng(陈延峰),et al. Scientia Sinica(Technologica)(中国科学:技术科学)[J],2014,44:1261-1270.
[4] Yu X L,Zhou J,Liang H,et al. Progress in Materials Science[J],2018,94:114-173.
[5] Montemayor L,Chernow V,Greer J R. MRS Bulletin[J],2015,40(12):1122-1129.
[6] Pacchioni G. Nature Reviews Materials[J],2016,1:16012.
[7] Li X,Gao H. Nature Materials[J],2016,15:373-374.
[8] Grima J,Caruana-Gauci R. Nature Materials[J],2012,11:565-566.
[9] Yu Xianglong(于相龙),Zhou Ji(周济). Mechanical Metamaterials:Architected Materials and Unexplored Properties(力学超材料的构筑与超常性能)[M]. Beijing:Science Press,2020.
[10] Ashby M F. Materials Selection in Mechanical Design[M]. Burlington:Butterworth-Heinemann,2011.
[11] Kadic M,Bueckmann T,Schittny R,et al. Reports on Progress in Physics[J],2013,76(12):126501.
[12] Schaedler T A,Jacobsen A J,Torrents A,et al. Science[J],2011,334(6058):962-965.
[13] Milton G. Journal of the Mechanics and Physics of Solids[J],1992,40(5):1105-1137.
[14] Chen Yi(陈毅),Liu Xiaoning(刘晓宁),Xiang Ping(向平),et al. Advances In Mechanics(力学进展)[J],2016,46:382-434.
[15] Martin A,Kadic M,Schittny R,et al. Physical Review B[J],2012,86:155116.
[16] Kadic M,Bückmann T,Stenger N,et al. Applied Physics Letters[J],2012,100(19):191901.
[17] Huang Y,Lu X,Liang G,et al. Physics Letters A[J],2016,380(13):1334-1338.
[18] Wang Y C,Lakes R S. Journal of Composite Materials[J],2005,39(18):1645-1657.
[19] Nicolaou Z,Motter A. Nature Materials[J],2012,11:608-613.
[20] Baughman R,Stafstrm S,Cui C,et al. Science[J],1998,279(5356):1522-1524.
[21] Lakes R,Lee T,Bersie A,et al. Nature[J],2001,410:565-567.
[22] Lakes R,Drugan W. Journal of the Mechanics and Physics of Solids[J],2002,50(5):979-1009.
[23] Goodwin A,Keen D,Tucker M. Proceedings of the National Academy of Sciences[J],2008,105:18708-18713.
[24] Cai W,Gladysiak A,Aniola M,et al. Journal of the American Chemical Society[J],2015,137(29):9296-9301.
[25] Porter D A,Easterling K E,Sherif M. Phase Transformations in Metals and Alloys[M]. Boca Raton:CRC Press,2009.
[26] Overvelde J,Shan S,Bertoldi K. Advanced Materials[J],2012,24(17):2337-2342.
[27] Gibson L,Ashby M. Cellular Solids:Structure and Properties[M].Cambridge:Cambridge University Press,1997.
[28] Meza L R,Phlipot G P,Portela C M,et al. Acta Materialia[J],2017,140:424-432.
[29] Meza L R,Das S,Greer J R. Science[J],2014,345(6202):1322-1326.
[30] Ashby M F. Philosophical Transactions of the Royal Society A[J],2006,364(1838):15-30.
[31] Ha C S,Hestekin E,Li J,et al. Physica Status Solidi B[J],2015,252(7):1431-1434.
[32] Wei Kai(韦凯),Pei Yongmao(裴永茂). Chinese Science Bulletin(科学通报)[J],2017,1:47-60.
[33] Yu Jingjun(于靖军),Xie Yan(谢岩),Pei Xu(裴旭).Journal of Mechanical Engineering(机械工程学报)[J],2018,54(13):1-14.
[34] Wu L,Li B,Zhou J. ACS Applied Materials&Interfaces[J],2016,8(27):17721-17727.
[35] Miller W,Mackenzie D,Smith C,et al. Mechanics of Materials[J],2008,40(4):351-361.
[36] Haghpanah B,Papadopoulos J,Mousanezhad D,et al. Proceedings of the Royal Society A[J],2014,470(2167):20130856.
[37] Rayneau-Kirkhope D,Dias M. ar Xiv[J],2016,1602:06105.
[38] Grima J N,Gatt R,Farrugia P S. Physica Status Solidi B[J],2008,245(3):511-520.
[39] Alderson A,Alderson K L,Attard D,et al. Composites Science and Technology[J],2010,70(7):1042-1048.
[2] Yu Xianglong(于相龙),Zhou Ji(周济). Journal of Materials Engineering(材料工程)[J],2016,44(7):119-128.
[3] Ruan Juqi(阮居祺),Lu Minghui(卢明辉),Chen Yanfeng(陈延峰),et al. Scientia Sinica(Technologica)(中国科学:技术科学)[J],2014,44:1261-1270.
[4] Yu X L,Zhou J,Liang H,et al. Progress in Materials Science[J],2018,94:114-173.
[5] Montemayor L,Chernow V,Greer J R. MRS Bulletin[J],2015,40(12):1122-1129.
[6] Pacchioni G. Nature Reviews Materials[J],2016,1:16012.
[7] Li X,Gao H. Nature Materials[J],2016,15:373-374.
[8] Grima J,Caruana-Gauci R. Nature Materials[J],2012,11:565-566.
[9] Yu Xianglong(于相龙),Zhou Ji(周济). Mechanical Metamaterials:Architected Materials and Unexplored Properties(力学超材料的构筑与超常性能)[M]. Beijing:Science Press,2020.
[10] Ashby M F. Materials Selection in Mechanical Design[M]. Burlington:Butterworth-Heinemann,2011.
[11] Kadic M,Bueckmann T,Schittny R,et al. Reports on Progress in Physics[J],2013,76(12):126501.
[12] Schaedler T A,Jacobsen A J,Torrents A,et al. Science[J],2011,334(6058):962-965.
[13] Milton G. Journal of the Mechanics and Physics of Solids[J],1992,40(5):1105-1137.
[14] Chen Yi(陈毅),Liu Xiaoning(刘晓宁),Xiang Ping(向平),et al. Advances In Mechanics(力学进展)[J],2016,46:382-434.
[15] Martin A,Kadic M,Schittny R,et al. Physical Review B[J],2012,86:155116.
[16] Kadic M,Bückmann T,Stenger N,et al. Applied Physics Letters[J],2012,100(19):191901.
[17] Huang Y,Lu X,Liang G,et al. Physics Letters A[J],2016,380(13):1334-1338.
[18] Wang Y C,Lakes R S. Journal of Composite Materials[J],2005,39(18):1645-1657.
[19] Nicolaou Z,Motter A. Nature Materials[J],2012,11:608-613.
[20] Baughman R,Stafstrm S,Cui C,et al. Science[J],1998,279(5356):1522-1524.
[21] Lakes R,Lee T,Bersie A,et al. Nature[J],2001,410:565-567.
[22] Lakes R,Drugan W. Journal of the Mechanics and Physics of Solids[J],2002,50(5):979-1009.
[23] Goodwin A,Keen D,Tucker M. Proceedings of the National Academy of Sciences[J],2008,105:18708-18713.
[24] Cai W,Gladysiak A,Aniola M,et al. Journal of the American Chemical Society[J],2015,137(29):9296-9301.
[25] Porter D A,Easterling K E,Sherif M. Phase Transformations in Metals and Alloys[M]. Boca Raton:CRC Press,2009.
[26] Overvelde J,Shan S,Bertoldi K. Advanced Materials[J],2012,24(17):2337-2342.
[27] Gibson L,Ashby M. Cellular Solids:Structure and Properties[M].Cambridge:Cambridge University Press,1997.
[28] Meza L R,Phlipot G P,Portela C M,et al. Acta Materialia[J],2017,140:424-432.
[29] Meza L R,Das S,Greer J R. Science[J],2014,345(6202):1322-1326.
[30] Ashby M F. Philosophical Transactions of the Royal Society A[J],2006,364(1838):15-30.
[31] Ha C S,Hestekin E,Li J,et al. Physica Status Solidi B[J],2015,252(7):1431-1434.
[32] Wei Kai(韦凯),Pei Yongmao(裴永茂). Chinese Science Bulletin(科学通报)[J],2017,1:47-60.
[33] Yu Jingjun(于靖军),Xie Yan(谢岩),Pei Xu(裴旭).Journal of Mechanical Engineering(机械工程学报)[J],2018,54(13):1-14.
[34] Wu L,Li B,Zhou J. ACS Applied Materials&Interfaces[J],2016,8(27):17721-17727.
[35] Miller W,Mackenzie D,Smith C,et al. Mechanics of Materials[J],2008,40(4):351-361.
[36] Haghpanah B,Papadopoulos J,Mousanezhad D,et al. Proceedings of the Royal Society A[J],2014,470(2167):20130856.
[37] Rayneau-Kirkhope D,Dias M. ar Xiv[J],2016,1602:06105.
[38] Grima J N,Gatt R,Farrugia P S. Physica Status Solidi B[J],2008,245(3):511-520.
[39] Alderson A,Alderson K L,Attard D,et al. Composites Science and Technology[J],2010,70(7):1042-1048.