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Papers on negative Poisson's ratio phenomena

Review papers

1. Wei Yang, Zhong-Ming Li, Wei Shi, Bang-Hu Xie, Ming-Bo Yang Review on auxetic materials // Journal of materials science. -2004.-Vol. 39.- P. 3269-3279
2. Конёк Д.А., Wojciechowski K.W., Плескачевский Ю.М., Шилько С.В. Материалы с отрицательным коэффициентом Пуассона (обзор) // Механика композитных материалов и конструкций (Москва)- 2004.-том10, №1-с.35-69 full text PDF
3. Lakes R. S. Advances in negative Poisson's ratio materials // Advanced Materials.- 1993.-Vol.5.- P.293-296.
4. K E Evans, Alderson A. Auxetic materials: functional materials and structures from lateral thinking // Advanced Materials- 2000- Vol.12,: 617 - 624

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5. Lim T.C. Material structure for attaining pure Poisson-shearing //JOURNAL OF MATERIALS SCIENCE LETTERS.-2002.-Vol.21, P.1595-1597
6. Lim T.C. Functionally graded beam for attaining Poisson-curving //JOURNAL OF MATERIALS SCIENCE LETTERS.-2002.-Vol.21, P.1899-1901
   
7. Lim T.C. Constitutive relationship of a material with unconventional Poisson's ratio //JOURNAL OF MATERIALS SCIENCE LETTERS.-2003.-Vol.22, P.1783-1786
   
8. Boulanger Ph., Hayes M. Poisson's ratio for orthorhombic materials // Journal of Elasticity.-1998.-vol.50, №1- P. 87-89
   
9. Matsuoka T., Yamamoto S., Takahara M. Prediction of structures and mechanical properties of composites using a genetic algorithm and finite element method // Journal of Materials Science (full set). -2000.-Vol. 36, #1.-P.27-33
   
10. Yang D.U., Lee S., Huang F.Y. Geometric effects on micropolar elastic honeycomb structure with negative Poisson's ratio using the finite element method // Finite Elements in Analysis and Design.-2003.-Vol.39, №3-P. 187-205.
    
11. Dunn M. L., Ledbetter H. Poisson's ratio of porous and microcracked solids: Theory and application to oxide superconductors // J. Mater. Res. -1991. - Vol. 6, No. 11, P. 2253-.
    
12. Ledbetter H., Lei M. Monocrystal elastic constants of orthotropic Y1Ba2Cu3O7: An estimate // J. Mater. Res.-1995.- Vol. 10, No. 11, p. 2715.
    
13. Stagni L. Effective transverse elastic moduli of a composite reinforced with multilayered hollow-cored fibers // Composites Science and Technology.- 2001.- Vol.61.-P. 1729-1734
    
14. S. Lee, F.Y. Huang, D.U. Yang Geometric effects on micropolar elastic honeycomb structure with negative Poisson's ratio using the finite element method // Finite Elements in Analysis and Design. - 2003. Vol. 39, № 3.-P. 187-205.
15. Rovati M. On the negative Poisson's ratio of an orthorhombic alloy // Scripta Materialia-2003.- vol. 48, №3-P. 235-240.
16. Xiangjun Xing and Leo Radzihovsky Universal Elasticity and Fluctuations of Nematic Gels // Physical Review Letters .-2003 .-VOL. 90, # 16.-P. 168301-168304.
    
17. Bowick M., Cacciuto A, Thorleifsson G, Travesset A. Universal negative Poisson ratio of self-avoiding fixed-connectivity membranes // Physical Review Letters.- 2001-vol.87, № 14 -P. 148103-148105
18. He C.B, Liu P.W., Griffin A.C. Toward negative Poisson ratio polymers through molecular design // Macromolecules.- 1998.- Vol. 31, № 9- P. 3145-3147
19. D. Kang, M.P. Mahajan, S. Zhang, R.G. Petschek, C. Rosenblatt, C. He, P. Liu, and A.C. Griffin. Pretransitional behavior above the nematic-isotropic phase transition of an auxetic trimer liquid crystal // Phys. Rev. E.-1999.-vol. 60.-P. 4980
20. Guo Y., William A. Goddard III. Is carbon nitride harder than diamond? No, but its girth increases when stretched (negative Poisson ratio) // Chem. Phys. Letters-1995.-Vol.237.-P.72-76
21. Cherfas J. Streching the point // Science.- 1990.-vol.247.-P.630
22. Evans K.E. Auxetic polymers: a new range of materials // Endeavour, New series.- 1991,# 4.-P.170-174
23. Alderson K. L., K. E. Evans The fabrication of microporous polyethylene having a negative Poisson's ratio // Polymer.- 1992.-Vol.33, # 20.-P.4435-4438
24. Patent WO 91/01210 Polymeric materials/ Evans K.E., Ainsworth K.
25. Patent WO 99/22838 Separation process and apparatus /Alderson A., Evans K.E.
26. Patent WO 00/53830 Auxetic materials /Alderson K.L., Simkins V.R.
27. Smith C. W.,Lehman F., Wootton R. J., Evans K. E Strain dependent denification during indentation in auxetic foams // Cellular polymers.-1999.-Vol.18, #2.-P.79-101
28. Caddok B.D., Evans K.Е. Microporous materials with negative Poisson’s ratios: I. Microstructure and mechanical properties // J. Phys. D: Appl. Phys. - 1989.- Vol.22, #.- P.1877-1882.
29. Evans K.Е., Caddok B.D. Microporous materials with negative Poisson’s ratios: II. Mechanisms and interpretation // J. Phys. D: Appl. Phys. - 1989.- Vol.22, #. - P.1883-1887.
30. Evans K. Tailoring the negative Poisson's ratio // Chemistry and Industry.- 1990, Oct.- P.654-657.
31. Alderson A., Evans K. E. Modelling concurrent deformation mechanisms is auxetic microporous polymers // J. Materials Science.- 1997.- Vol. 32. - P.2797-2809.
32. Pickles A.P., Alderson K L, Evans K E. The effects of powder morphology on the proceccing of auxetic polypropylene (PP of negative Poisson's ratio) // Poly. Eng. Sci.- 1996.-Vol.36, №5- P. 637 - 642.
33. Neale P.J. Alderson K.L. Pickles A.P., Evans K.E. Negative Poisson's ratio of microporous polyethylene in compression //J. Mater. Sci. Lett.-1993.-Vol.12.-P. 1529-1532.
34. Pickles A.P., Webber R.S., Aldreson K.L., Neale P.J., Evans K.E. The effect of processing parameters on the fabrication of auxetic polyethylene. Part 1. The effect of compaction conditions // J. Mater. Sci.-1995-vol.30.-P.4059-4068
35. Aderson K.L, Kettle A.P., Neale P.J., Pickles A.P., Evans K.E. The effect of processing parameters on the fabrication of auxetic polyethylene. Part 2. The effect of sintering time and temperature // J. Mater. Sci.-1995-vol.30.-P.4069-4075.
36. Neale P.J., Pickles A.P., Alderson K.L. Evans K.E. The effect of processing parameters on the fabrication of auxetic polyethylene. Part 3. The effect of extrusion conditions // J. Mater. Sci.-1995-vol.30.-P.4087-4094.
37. Aldersson K.L. Pickles A.P., Neale P.J. Evans K.E. Auxetic polyethylene: the effect of a negative Poisson Ratio on hardness //Acta metall. mater.-1994.-Vol.42.-P.2261-2266.
    
38. Webber R S, Alderson K L Evans K E. Novel variations in the microstructure of auxetic microporous ultra high molecular weight polyethylene. Part 1: Processing and microstructure // Poly. Eng. Sci.- 2000.-Vol.14,: 1894 - 1905.
39. K L Alderson, R S Webber and K E Evans, Novel Variations in the Microstructure of Auxetic Microporous Ultra High Molecular Weight Polyethylene. Part 2: Mechanical Properties // Poly. Eng. Sci., 14, 2000: 1906 - 1914.
40. Alderson A., Evans K.E. Rotation and dilation deformation mechanisms for auxetic behaviour in the a-cristobalite tetrahedral framework structure //Physics and Chemistry of Minerals.-2001.-Vol. 28, № 10.-P. 711-718
41. Andrew Alderson, and Kenneth E. Evans Molecular origin of auxetic behavior in tetrahedral framework silicates // Physical Review Letters.- 2002.-Vol. 89, NUMBER 22- 25-P. 25503-256.
42. Grima J. N., Evans K. E. Rotating Squares with Negative Poisson's Ratios // J. Mat. Sci. Lett.- 2000-Vol.19-P.1563 - 1565.
43. Evans K.E., Nkansah M.A., Hutchinson I.J. Modelling the mechanical properties of an auxetic molecular network //Modelling and Simulation in Materials Science and Engineering.- 1994.-Vol. 2, № 3.- P.337-352
44. Alderson K.L, Alderson A., Smart G., Simkins V.R., Davies P.J. Auxetic polypropylene fibres. Part 1-Manufacture and characterisation // Plastics, rubber and composites.-2002.-Vol.31, #8.-P.344-349.
45. Vasiliev A.A., Dmitriev S.V., Ishibashi Y., Shigenari T. Elastic properties of a two-dimensional model of crystals containing particles with rotational degrees of freedom // Phys. Rev. B.- 2002.-Vol. 65 - P.94101-94107.
46. Ishibashi Y., Iwata M. A microscopic model of a negative Poisson' s ratio in some crystals //J. Phys. Soc. Jap.-2000.-Vol.69, № 8.- P.2702-2703.
    
47. Alderson K. L. Alderson A., Evans K. E. The interpretation of the strain-dependent Poisson's ratio in auxetic polyethylene. //J. Strain Analysis. - 1997.-Vol. 32.- P.201-212.
48. K L Alderson, A Alderson, R S Webber, K E Evans Evidence of uniaxial drawing in the fibrillated microstructure of auxetic microporous polymers // J. Mat. Sci. Lett. 1998-Vol.17-P.1415-1419.
49. Howell B, Prendergast P, Hansen L Examination of acoustic behaviour of negative Poisson ratio materials //Applied Acoustics.-1994.-vol.43.-P.141-148.
50. Alderson K. L. Webber R. S., Mohammed U. F. Murphy E., Evans K. E. An experimental study of ultrasonic attenuation in microporous polyethylene // Applied Acoustics.-1997.-Vol. 50.- P.23-33.
51. K L Alderson, A Fitzgerald, K E Evans The strain dependent indentation resilience of auxetic microporous polyethylene // J. Mat. Sci.- 2000-Vol.35- P.4039-4047.
52. J N Grima, A Alderson, K E Evans Do zeolites have negative Poisson's ratios? // Adv. Mat.- 2000.-Vol.12. -P.1912 - 1918.
53. Chan N. Evans K. E. Microscopic examination of the microstructure and deformation of conventional and auxetic foams. // J. Materials Science.-1997.- Vol.32. - P. 5725-5736.
54. Chan N., Evans K. E. Indentation resilience of conventional and auxetic foams // J. Cell. Plast.- 1998.- Vol.34.- P.231-260.
55. Chan, N. & Evans, K. E. 1999. The mechanical properties of conventional and auxetic foams. Part 1: Compression and tension. J. Cell. Plastics., 35, 130-165.
56. Chan, N. & Evans, K. E., The mechanical properties of conventional and auxetic foams. Part 2: Shear, Journal Cellular Plastics, 35 1999: 166-183.
57. Roach A. M., Evans K. E., Jones N. The penetration energy of sandwich panel elements under static and dynamic loading. Part 1 // Composite Structures. -1998.- Vol.42.- P.119-134.
58. Savic D. A. Evans K. E., Silberhorn N. A genetic algorithm based system for the optimal design of laminates // Comp.-Aided Civiland Infrastructure Eng.- 1999.- Vol.14.-P.187-197.
59. Chan N., Evans K. E. The mechanical properties of conventional and auxetic foams. Part 1: Compression and tension // J. Cell. Plastics. -1999.- Vol. 35.-P.130-165.
60. Smith C. W., Evans K. E., Lehman F. Strain densification during indentation in auxetic foams // Cellular Polymers. -1999.- Vol. 18, # 2.-P.79-101.
61. Smith C. W., Wootton R. J., Evans K. E. Interpretation of experimental data for Poisson’s ratio of highly non-linear materials // Experimental Mechanics.- 1999.- Vol.39, # 4.- P.356-362.
62. Masters I.G., Evans K.E. Models for the elastic deformation of honeycombs // Composite structures.-1996. -vol.35, # 4.-p.403-422
63. Evans K.E. Nkansah M.A. Hutchinson I.J Auxetic foams: modelling negative Poisson ratios // Acta metalurgica et materialia.- 1994.- vol.42, #4.- P.1289-1294
64. Evans K.E., Nkansah M.A., Hutchinson I.J. Rogers S.C. Molecular network design // Nature.- 1991. -vol.353.- P. 124
65. Сaddock B.D., Evans K.E. Negative Poisson ratios and strain-dependent mechanical properties in arterial prostheses // Biomaterials.- 1995.- vol.16.- P.1109-1115
66. Lee J.H., Choi J.B., Choi K. Application of homogenization FEM analysis to regular and re-entrant honeycomb structures // J. Mater. Sci.- 1996.- vol.31, #15.- P.4105-4110
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81. Chernous D.A., Shilko S. V., Konyok D. А., Pleskachevsky Yu.М. Nonlinear viscoelastic behavior of flexible cellular plastics: refined rod model // International Journal of applied mechanics and engineering – 2003.–Vol.8, №1– P. 27-41. full text pdf
82. Shilko S.V., Stelmakh S.V., Chernous D.A., Pleskatchevskii Yu.M Structural simulation of supercompressible materials // Journal of Theoretical and Applied Mechanics.- 1998.- # 1.- P. 87-96. full text PDF
83. Shilko S.V., Konyok D.A. Numerical and experimental study of auxetic closed-cell foams // Computational methods in sciens and technology-2004.-Vol. 10, № 2-p.197-202.
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86. Черноус Д.А., Ефремова З.Г., Плескачевский Ю.М., Шилько С.В. Двумерная анизотропная модель пористого материала // Материалы, технологии, инструмент. - 1997. - # 3. - С. 5-10.
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94. Lakes R. S. Negative Poisson's ratio materials // Science. -1987.-Vol.238- P.551.
95. Friis E. A., Lakes R. S., Park. J. B. Negative Poisson's ratio polymeric and metallic materials // Journal of Materials Science.- 1988.-Vol. 23.-P.4406-4414.
96. Chen C. P., Lakes R. S. Dynamic wave dispersion and loss properties of conventional and negative Poisson's ratio polymeric cellular materials // Cellular Polymers.- 1989.-Vol.8, # 5.- 343-359.
97. Chen C. P. and Lakes R. S. Holographic study of conventional and negative Poisson's ratio metallic foams: elasticity, yield, and micro-deformation // J. Materials Science.- 1991.-Vol. 26.- P.5397-5402.
98. Choi J. B., Lakes R. S. Design of a fastener based on negative Poisson's ratio foam // Cellular Polymers.- 1991.-Vol.10.-P.205-212.
99. Lakes R. S. Experimental micro mechanics methods for conventional and negative Poisson's ratio cellular solids as Cosserat continua // J. Engineering Materials and Technology.-1991.- Vol.113-P.148-155.
100. Lakes R. S. Deformation mechanisms of negative Poisson's ratio materials: structural aspects // J. Materials Science.- 1991.- Vol. 26.-P.2287-2292.
101. Choi J. B. Lakes R. S. Nonlinear properties of polymer cellular materials with a negative Poisson's ratio // J. Materials Science.- 1992.-Vol.27.-P.4678-4684.
102. Lakes, R. S. The time dependent Poisson's ratio of viscoelastic cellular materials can increase or decrease // Cellular Polymers.- 1992.-vol.11.- P. 466-469.
103. Lakes, R. S. Saint Venant end effects for materials with negative Poisson's ratios // J. Applied Mechanics.- 1992.-Vol. 59.- P.744-746.
104. Choi J. B. Lakes R. S. Nonlinear properties of metallic cellular materials with a negative Poisson's ratio // J. Materials Science.- 1992.-Vol.27.- P.5373-5381.
105. Lakes R. S. Design considerations for negative Poisson's ratio materials //ASME Journal of Mechanical Design.-1993.-Vol. 115.-P.696-700.
107. Rosakis P., Ruina A., Lakes R. S. Microbuckling instability in elastomeric cellular solids // J. Materials Science.- 1993.- Vol.28.- P.4667-4672.
108. Chen C. P. and Lakes, R. S. Viscoelastic behaviour of composite materials with conventional or negative Poisson's ratio foam as one phase // J. Materials Science.-1993.-vol. 28.- P.4288-4298.
109. Chen C. P. Lakes R. S. Holographic study of non-affine deformation in copper foam with a negative Poisson's ratio -0.8 // Scripta Metall et Mater.-1993.-Vol. 29.-P.395-399.
110. Lakes R. S., Elms K. Indentability of conventional and negative Poisson's ratio foams // J. Composite Materials.-1993.- Vol. 27.- P.1193-1202.
111. Lakes R. S. Materials with structural hierarchy // Nature.- 1993.-Vol.361.-P.511-515.
112. Choi J. B. Lakes R. S. Nonlinear analysis of the Poisson's ratio of negative Poisson's ratio foams // J. Composite Materials.- 1995.- Vol.29, #1.- P.113-128.
113. Chen C. P. Lakes R. S. Micromechanical analysis of dynamic behavior of conventional and negative Poisson's ratio foams // J. Engineering Materials and Technology- 1996.- Vol.118.- P.285-288.
114. Choi J. B. Lakes R. S. Fracture toughness of re-entrant foam materials with a negative Poisson's ratio: experiment and analysis // Int. J. Fracture.- 1996.-Vol. 80.-P.73-83.
115. Prall D. Lakes R. S. Properties of a chiral honeycomb with a Poisson's ratio -1 // Int. J. of Mechanical Sciences.- 1996.-Vol. 39.-P.305-314.
116. Lee T.A. Lakes R. S. Anisotropic polyurethane foam with Poisson's ratio greater than 1 // Journal of Materials Science.- 1997.- Vol.32.- P.2397-2401.
117. Loureiro M. A. Lakes, R. S. Scale-up of transformation of negative Poisson's ratio foam: Slabs // Cellular Polymers.- 1997.- Vol.16.- P.349-363.
118. Lakes R. S. Lowe A. Negative Poisson's ratio foam as seat cushion material // Cellular Polymers.- 2000.-vol.19.- P.157-167.
119. Lakes R.S. Deformations in extreme matter //Science-2000-Volume 288, Number 5473, Issue of 16 June 2000, P. 1976-1977
120. Lakes R.S. A broader view of membranes // Nature-2001- vol. 414 , 29 November-P. 503-504
121. Brandel B., Lakes R. S. Negative Poisson's ratio polyethylene foams // Journal of Materials Science.- 2001.-Vol. 36.- P.5885 - 5893.
122. Wang Y. C., Lakes R. S., Butenhoff A. Influence of cell size on re-entrant transformation of negative Poisson's ratio reticulated polyurethane foams // Cellular Polymers- 2001- Vol. 20 -P. 373-385.
123. Lakes R. S., Witt R. Making and characterizing negative Poisson's ratio materials // International Journal of Mechanical Engineering Education- 2002-Vol. 30- P.50-58.
124. Wang, Y. C. and Lakes, R. S. Analytical parametric analysis of the contact problem of human buttocks and negative Poisson's ratio foam cushions // International Journal of Solids and Structures -2002-vol. 39-p. 4825-4838 .
125. Scarpa F., Tomlin P. J. On the transverse shear modulus of negative Poisson's ratio honeycomb structures //Fatigue & Fracture of Engineering Materials & Structures.-2000.-Vol. 23. -P. 717-720
126. Scarpa F., Tomlinson G.R. On static and dynamic design criteria of sandwich plate structures with a negative Poisson's ratio core. //Journal of Applied Mechanics and Engineering -2000-vol.5, №1- pp 207-222.
127. Scarpa F., Tomlinson G.R. Theoretical characteristics of the vibration of sandwich plates with in-plane negative Poisson's ratio values. // Journal of Sound and Vibration -2000-vol. 230, №1- pp 45-67.
128. Scarpa F., Panayiotou P., Tomlinson G.R. Numerical and experimental uniaxial loading on in-plane auxetic honeycombs. // Journal of Strain Analysis and Engineering Design -2000 -vol. 35, №5- pp 383-388.
129. Scarpa F. Parametric sensitivity analysis of coupled acoustic-structural systems. // ASME Journal of Vibration, Acoustics and Rel.- 2000-vol.122, №2- pp 109-115.
130. Smith F C and Scarpa F The electromagnetic properties of re-entrant dielectric honeycombs //IEEE Microwave Guided Wave Lett. -2000 -Vol. 10.-P. 451-453
131. Scarpa F., Ciffo L.G., Yates J.R. Dynamic properties of high structural integrity auxetic open cell foam //Smart Mater. Struct .-2004. Vol.13 .-P. 49-56
     
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135. Effects of morphology and orientation on the behaviour of two-dimensional hexagonal foams and application in a re-entrant foam anchor model // Mechanics of materials.- 1998.- Vol. 29.- P. 43-52
136. Gioia G., Wang Y., Cuitino A. M.. The energetics of heterogeneous deformation in open-cell solid foams // Proceedings of the Royal Society of London, Series A.- 2001.- vol. 457.- P.1079-1096.
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