PL
 |
EN

PL EN

Preferencje help
Polish version English version Język
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Auxetic materials — A review

Autorzy
Carneiro V. H. , Meireles J. , Puga H.
Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Auxetic materials are endowed with a behavior that contradicts common sense, when subjected to an axial tensile load they increase their transverse dimension. In case of a compression load, they reduce their transverse dimension. Consequently, these materials have a negative Poisson’s ratio in such direction. This paper reviews research related to these materials. It presents the theories that explain their deformation behavior and reveals the important role represented by the internal structure. Their mechanical properties are explored and some potential applications for these materials are shown.
Słowa kluczowe
EN
Wydawca
De Gruyter
Czasopismo
Materials Science Poland
Rocznik
2013
Tom
Vol. 31, No. 4
Strony
561--571
Opis fizyczny
Bibliogr. 74 poz., rys., tab., wykr.
Twórcy
autor
Carneiro V. H.
a53996@alunos.uminho.pt
  • Department of Mechanics Engineering, University of Minho, Campus de Azurem, Guimaraes, Portugal
autor
Meireles J.
  • Department of Mechanics Engineering, University of Minho, Campus de Azurem, Guimaraes, Portugal
autor
Puga H.
  • Department of Mechanics Engineering, University of Minho, Campus de Azurem, Guimaraes, Portugal
Bibliografia
  • [1] ROH J.H., GILLER C.B., MOTT P.H., ROLAND C.M., AIP Advances, 3 (2013), 042126.
  • [2] GREAVES G.N., GREER A.L., LAKES R.S., ROUXEL T., Nat. Mater., 10 (2011), 823.
  • [3] STREK T., MARUSZEWSKI B., NAROJCZYK J.W., WOJCIECHOWSKI K.W., J. Non-Cryst. Solids, 354 (2008), 4475.
  • [4] WOJCIECHOWSKI K.W., NOVIKOV V.V., Task Quarterly, 5 (2001), 5.
  • [5] GERCEK H., Int. J. Rock Mech. Min., 44 (2007), 1.
  • [6] GLIECK J., The New York Times, 14th April 1987.
  • [7] MILTON G.W., J. Mech. Phys. Solids, 40 (1992), 1105.
  • [8] EVANS K.E., NKANSAH M.A., HUTCHINSON I.J., ROGERS S.C., Nature, 353 (1991), 124.
  • [9] PRAWOTO Y., Comp. Mater. Sci., 58 (2012), 140. [10] WOJCIECHOWSKI, K.W., J. Phys. Soc. Jpn., 72 (2003), 1819.
  • [11] KOCER C., MCKENZIE D.R., BILEK M.M., Mater. Sci. Eng. A – Struct., 505 (2009), 111.
  • [12] MOTT P.H., ROLAND C.M., Phys. Scripta, 87 (2013), 055404.
  • [13] LAKES R.S., LEE T., BERSIE A., WANG Y.C., Nature, 410 (2001), 565.
  • [14] TOKMAKOVA S.P., Phys. Stat. Sol. B, 242 (2005), 721.
  • [15] NAROJCZYK J.W., WOJCIECHOWSKI K.W., Phys. Stat. Sol. B, 245 (2008), 606.
  • [16] BRANKA A.C., HEYES D.M., MACKOWIAK SZ., PIEPRZYK S., WOJCIECHOWSKI K.W., Phys. Stat. Sol. B, 249 (2012), 1373.
  • [17] KIMIKUZA H., OGATA S., SHIBUTANI Y., Mat. T. JIM, 46 (2005), 1161.
  • [18] NAROJCZYK J.W., WOJCIECHOWSKI K.W., J. NonCryst. Solids, 356 (2010), 2026.
  • [19] BRANKA A.C., HEYES D.M., MACKOWIAK SZ., PIEPRZYK S., WOJCIECHOWSKI K.W., Phys. Stat. Sol. B, 248 (2011), 96.
  • [20] BAUGHMAN R.H., SHACKLETTE J.M., ZAKHIDOV A.A., STAFSTR ¨OM S., Nature, 392 (1998), 362.
  • [21] TING T.C.T., CHEN T.Y., Q. J. Mech. Appl. Math., 58 (2005), 73.
  • [22] NORRIS A.N., J. Mech. Mater. Struct., 1 (2006), 793.
  • [23] ATTARD D., GRIMA J.N., Phys. Stat. Sol. B, 245 (2008), 2395.
  • [24] EVANS K.E., Membr Tech., 137 (2001), 9.
  • [25] VOIGT W., Annalen der Physik, 16 (1882), 273.
  • [26] LOVE A.E.H., A Treatise on the Mathematical Theory of Elasticity, Dover Publications, United States of America, 1944
  • [27] KIMIZUKA H., KABURAKI H., KOGURE Y., Phys. Rev. Lett., 84 (2000), 5548.
  • [28] GRIMA J.N., EVANS K.E., J. Mater. Sci., 41 (2006), 3193.
  • [29] GRIMA J.N., GATT R., ALDERSON A., EVANS K.E., J. Mater. Chem., 15 (2005), 4003.
  • [30] VERONDA D.R., WESTMANN R.A., J. Biomech., 3 (1970), 111.
  • [31] LEES C., VINCENT J.F.V., HILLERTON J.E., BioMed. Mater. Eng., 1 (1991), 19.
  • [32] WILLIAMS J.L., LEWIS J.L., J. Biomech. Eng., 104 (1982), 50.
  • [33] PIKHITSA P.V., Phys. Rev. Lett., 93 (2004), 015505.
  • [34] PASTERNAK E., DISKIN A.V., Int. J. Eng. Sci., 52 (2012), 103.
  • [35] LAKES R.S., Science, 235 (1987), 1038.
  • [36] GRIMA J.N., Auxetic Metamaterials, Strasbourg, France, 2010
  • [37] GASPAR N., SMITH C.W., ALDERSON A., GRIMA J.N., J. Mater. Sci., 46 (2011), 372.
  • [38] MISHNAEVSKI JR. L., Rev Adv Mater Sci., 30 (2012), 60.
  • [39] COLUCI V.R., HALL L.J., KOZLOV M.E., ZHANG M., DANTAS S.O., GALV ˘AO D.S., BAUGHMAN R.H., Phys. Rev. B., 78 (2008), 115408.
  • [40] ALMGREN R.F., J. Elasticity, 15 (1985), 427.
  • [41] GIBSON L.J., J. Biomech., 38 (2005), 377.
  • [42] GRIMA J.N., ALDERSON A., EVANS K.E., Comp. Meth Sci. Tech., 10 (2004), 137.
  • [43] WOJCIECHOWSKI K.W., Mol. Phys., 61 (1987), 1247.
  • [44] WOJCIECHOWSKI K.W., BRANKA A.C., Phys. Rev. A, 40 (1989), 7222.
  • [45] WOJCIECHOWSKI K.W., Phys. Lett. A, 137 (1989), 60.
  • [46] GASPAR N., REN X.Z., SMITH C.W., GRIMA J.N., EVANS K.E., Acta Mater., 53 (2005), 2439.
  • [47] WOJCIECHOWSKI K.W., J. Phys. A – Math. Gen., 36 (2003), 11765.
  • [48] FRIIS E.A., LAKES R.S., PARK J.B., J. Mater. Sci., 23 (1988), 4406.
  • [49] Y. LIU, H. HU., Sci. Res. Essays., 5 (2010), 1052.
  • [50] ATTARD D., GRIMA J.N., Phys. Stat. Sol. B., 248 (2011), 52.
  • [51] GRIMA J.N., GATT R., ELLUL B., CHETCUTI E., J. Non-Cryst. Solids, 356 (2010), 1980.
  • [52] DMITRIEV S.V., Ferroelectrics, 349 (2007), 33.
  • [53] ATTARD D., MANICARO E., GATT R., GRIMA J.N., Phys. Stat. Sol. B, 246 (2009), 2045.
  • [54] ATTARD D., GRIMA J.N., Phys. Stat. Sol. B, 249 (2012), 1330.
  • [55] ABRAMOVITCH H., BURGARD M., AZULAY L.E., EVANS K.E., HOFFMEISTER M., MILLER W., SCARPA F., SMITH C.W., TEE K.F., SCH ¨ONECKER A., SEFFNER L., Proceedings of SPIE., 6935 (2008), 693506.
  • [56] PRALL D., LAKES R.S., Int. J. Mech. Sci., 39 (1997), 305.
  • [57] F. SCARPA, BLAIN S., LEW T., PERROT D., RUZZENE M., YATES J.R., Compos Part A – Appl. S., 38 (2007), 280.
  • [58] SPADONI A., RUZZENE M., J. Mech. Phys. Solids, 60 (2012), 156.
  • [59] HALL L.J., COLUCI V.R., GALV ˘AO D.S., KOZLOV M.E., ZHANG M., DANTAS S.O., BAUGHMAN R.H., Science, 320 (2008), 504.
  • [60] HARKATI E.H., BEZAZI A., SCARPA F., ALDERSON K., ALDERSON A., Phys. Stat. Sol. B, 244 (2007), 883.
  • [61] EVANS K.E., ALDERSON A., Adv. Mater., 12 (2000), 617.
  • [62] ARGATOV I.I., D´IAZ R.G., SABINA F.J., Int. J. Eng. Sci., 54 (2012), 42.
  • [63] COENEN V.L., ALDERSON K.L., Phys. Stat. Sol. B, 248 (2011), 66.
  • [64] ALDERSON A., Chem Ind., 10 (1999), 384.
  • [65] LIU Q., Literature Review: Materials with Negative Poisson’s Ratios and Potential Applications to Aerospace and Defense, Defense Science and Technology Organization, Victoria, Australia, 2006
  • [66] CRITCHLEY R., CORNI I., WHARTON J.A., WALSH F.C., WOOD R.J.K., STOKES K.R., Phys. Stat. Sol. B, (2013), 1.
  • [67] TETRIAKOV K.V., WOJCIECHOWSKI K.W., J. Chem. Phys., 136 (2012), 204506.
  • [68] NAROJCZYK J.W., ALDERSON A., IMRE A.R., SCRAPA F., WOJCIECHOWSKI K.W., J. Non-Cryst. Solids, 354 (2008), 4242.
  • [69] YANG W., LI Z.L., SHI W., XIE B., YANG M., J. Mater. Sci., 39 (2004), 3269.
  • [70] BEER F.P., JOHNSTON E.R., Mechanics of Materials, 3rd ed., MAKRON Books, S˘ao Paulo, Brazil, 1967
  • [71] XINCHUN S., LAKES R.S., Phys. Stat. Sol. B, 244 (2007), 1008.
  • [72] WANG Y.C., LAKES R.S., J. Compos. Mater, 39 (2005), 1645.
  • [73] CHOI J.B., LAKES R.S., Int. J. Fracture, 80 (1996), 73.
  • [74] BEZAZI A., BOUKHAROUBA W., SCARPA F., Phys. Stat. Sol. B, 246 (2009), 2102.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-2589c28e-731b-4c72-afb9-60783b8cea02
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.