Molecular auxetics

• Autorzy: Wojciechowski K. W.
• Konferencja: Symposium “Vibrations In Physical Systems” (22 ; 19-22.04.2006 ; Będlewo koło Poznania, Polska)
• Języki publikacji: EN

Słowa kluczowe

EN

elastic properties; negative Poisson's ratio; auxetic materials

PL

właściwości elastyczne; ujemny współczynnik Poissona; materiały auksetyczne

• Wydawca: Poznan University of Technology. Institute of Applied Mechanics
• Czasopismo: Vibrations in Physical Systems
• Rocznik: 2006
• Tom: Vol. 22
• Strony: 49--52
• Opis fizyczny: Bibliogr. 32 poz.

Twórcy

autor

Wojciechowski K. W.

• Institute of Molecular Physics, Polish Academy of Sciences, ul. M. Smoluchowskiego 17, 60-179 Poznań, Poland

Bibliografia

• 1. Almgren, R.F. (1985) An isotropic three-dimensional structure with Poisson's ratio=-1, Journal of Elasticity 15, 427-430.
• 2. Kolpakov, A.G. (1985) Determination of the average characteristics of elastic frameworks, PMM USSR 49, 739-745.
• 3. Wojciechowski, K.W. (1987) Constant thermodynamic tension Monte Carlo studies of elastic properties of a two-dimensional system of hard cyclic hexamers, Molecular Physics 61, 1247-1258.
• 4. Lakes, R.S. (1987) Foam structures with a negative Poisson’s ratio, Science 235, 1038-1040.
• 5. Landau, L.D. and Lifshits, E.M. (1993) Theory of Elasticity, Pergamon, Oxford.
• 6. Lakes, R. (1993) Advances in negative Poisson’s ratio materials, Advanced Materials 5, 293-296.
• 7. Wojciechowski, K.W. and Brańka, A.C. (1994) Auxetics: Materials and Models with Negative Poisson's Ratios, Molecular Physics Reports 6, 71-85.
• 8. Evans, K.E. and Alderson A. (2000) Auxetic materials: Functional materials and structures from lateral thinking, Advanced Materials 12, 617-628.
• 9. Stavroulakis, G.E. (2005) Auxetic behaviour: appearance and engineering applications, Physica Status Solidi (b) 242, 710-720.
• 10. Krzysztof W. Wojciechowski, Andrew Alderson, Arkadiusz Brańka, Kim L. Alderson (2005) Preface, Physica Status Solidi (b) 242, 397.
• 11. http://www.ifmpan.poznan.pl/zp10/auxet2/main.html .
• 12. Lipsett, A.W. and Beltzer, A.I. (1988) Reexamination of dynamic problems of elasticity for negative Poisson's ratio, J. Acoustical Soc. America 84, 2179-2186.
• 13. Wojciechowski, K.W. (1998) Isotropic systems of negative Poisson ratios, in Statistical Physics: Experiments, Theories, and Computer Simulations, Eds. Tokuyama M. and Oppenheim, I., World Scientific, p 107.
• 14. Grima, J.N., Jackson, R. Alderson, A. and Evans, K.E. (2000) Do zeolites have negative Poisson’s ratios ?, Advanced Materials 12, 1912-1918.
• 15. Grima, J.N. and and Evans, K.E. (2000) Auxetic behavior from rotating squares J. Materials Sci. Letters 19, 1563-1565.
• 16. Ishibashi, Y. and Iwata, M. (2000) A microscopic model of a negative Poisson’s ratio in some crystals J. Phys. Soc. Japan 69, 2702-2703.
• 17. Bowick, M., Cacciuto, A., Thorleifsson, G. and Travesset A. (2001) Universal negative Poisson ratio of self-avoiding fixed-connectivity membranes, Phys. Rev. Lett. 87, 148103_1-4.
• 18. Alderson, A. and Evans, K.E. (2002) Molecular origin of auxetic behavior in tetrahedral framework silicates, Phys. Rev. Lett. 89, 225503_1-4.
• 19. Vasiliev, A.A., Dmitriev, S.V., Ishibashi, Y. and Shigenari T. (2002) Elastic properties of a two-dimensional model of crystals containing particles with rotational degrees of freedom, Phys. Rev. E 65, 094101_1-7.
• 20. Hailing, T., Saunders, G.A., Yogurtcu, Y.K., Bach, H. and Methfesse, S. (1984) Poisson’s ratio limits and effects of hydrostatic pressure on elastic behaviour of Sm1-xYxS alloys in the intermediate valence state, J. Phys. C: Solid State Physics 17, 4559-4573.
• 21. Hirotsu, S. (1991) Softening of bulk modulus and negative Poisson’s ratio near the volume phase transition of polymer gels, J. Chem. Phys. 94, 3949-3957.
• 22. Tretiakov, K.V. (2000) Monte Carlo simulation studies of mechanical and thermodynamic stability of selected molecular models, PhD Thesis, IFM PAN, Poznań.
• 23. Novikov, V.V. and Wojciechowski, K.W. (1999) Negative Poisson coefficient of fractal structures, Solid State Physics 41, 1970-1975.
• 24. Wojciechowski, K.W. and Novikov, V.V. (2001) Negative Poisson’s ratio and percolating structures, TASK Quarterly 5, 5-11.
• 25. Wojciechowski, K.W. (1995) Negative Poisson ratios at negative pressures, Molec. Phys. Reports 10, 129-136 (1995).
• 26. Wojciechowski, K.W. and Tretiakov, K.V. (1996) Determination of elastic constants by Monte Carlo simulations, Computational Methods in Science and Technology 1, 25-29.
• 27. Wojciechowski, K.W. (2003) Non-chiral, molecular model of negative Poisson ratio in two dimensions, J. Phys.: Math. Gen. 36, 11765-11778.
• 28. Wojciechowski, K.W. (1989) Two-dimensional isotropic system with a negative Poisson ratio, Physics Letters A 137, 60-64.
• 29. Milstein, F. and Huang, K. (1979) Existence of a negative Poisson ratio in FCC crystals, Phys. Rev. B 19, 2030-2033.
• 30. Kittinger, E., Tichy, J. And Bertagnolli, E. (1981) Example of a Negative Effective Poisson’s Ratio, Phys. Rev. Lett. 47, 712-714.
• 31. Yeganeh-Haeri, A., Weidner, D. J. and Parise, J. B. (1992) Elasticity of alpha - cristobalite: a silicon dioxide with a negative Poisson’s ratio, Science 257, 650-652.
• 32. Wojciechowski, K.W. (2005) Monte Carlo simulations of model particles froming phases of negative Poisson’s ratio in Properties and Applications of Nanocrystalline Alloys from Amorphous Precursors, Eds. B. Idzikowski, P. Svec and M. Miglierini, Kluwer, Dordrecht, pp. 241-252.