Abstract
Two distinct types of macroscopic theoretical model for the low strain mechanical behaviour of oriented solid polymers will be considered in this chapter. First models which predict the changes in elastic constants with the development of orientation ; these will be referred to as ‘orienting element’ models. Secondly, models which seek to explain the mechanical behaviour of both isotropic and oriented polymers in terms of a two phase material with separate components representing crystalline and amorphous fractions ; these we shall call ‘composite structure’ models.
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References
Kennedy, A. J. (1962). Processes of Creep and Fatigue in Metals, Oliver and Boyd. Edinburgh, p. 7.
Reiner, M. (1971). Advanced Rheoloay. Lewis, London.
Sobotka, Z. (1971). J. Macromol. Sci., Phys., B5, 393.
Ward, I. M. (1971). Mechanical Properties of Solid Polymers. Wiley. London.
Ward, I. M. (1961). Text. Res. J., 31, 650.
Pinnock, P. R. and Ward, I. M. (1963). Proc. Phys. Soc. 81, 260.
Ward, I. M. (1962). Proc. Phys. Snc. 80, 1176.
Ward, I. M. (1966). Appl Mater. Res., 5, 224 and 228.
Hadley, D. W., Pinnock, P. R. and Ward, I. M. (1969). J. Mater. Sci.. 4, 152.
Voigt, W. (1928). Lehrbuch der Kristallphysik Teuhner, Leipzig, p. 410.
Reuss, A. (1929). Z. Augen: Math. M eck. 9, 49.
Hearmon, R. F. S. (1956). Adv. Phys.. 5, 323.
Bishop, J. and Hill R.(1951). Phil. Mag., 42, 414 and 1298.
Hill, R. (1963). J. Meeh. Phys. Solids. 11, 357.
Hashin, Z. and Shtrikman, S. (1962). J. Mech. Phys. Solids. 10, 343.
Peselnick, L. and Meister, R. (1965). J. AppL Phys., 36, 2870.
Pinnock, P. R. and Ward, I. M. (1966). Brit. J. AppL Phys., 17, 575.
Kratkv, O. (1933) Kolloid-Z., 64, 213.
Kuhn, W. and Grün, F. (1942). Kolloid-Z., 101, 248.
Crawford, S. M. and Kolsky, H. (1951). Proc. Phys. Soc. B64, 119.
Cannon, C. G. and Chappel F. P. (1959). Brit. J. Appl Phys., 10. 68.
Pinnock, P. R. and Ward, I. M. (1964). Brit. J. Appl Phys., 15, 1559.
Gupta, V. B. and Ward, I. M. (1967). J. Macromol. Sci. Phys., Bl, 373.
Raraty, L. E. (1966). AppL Mater. Res., 5, 104.
Gupta, V. B., Keller, A. and Ward I. M. (1968). J. MacromoL Sci. Phys., B2, 139.
Gupta, V. B. and Ward, I. M. (1970). J. MacromoL ScL Phys., B4, 453.
Gupta, V. B. and Ward I. M. (1971). J. M acromo!, Sei Phys., B5, 629.
McBrierty, V. J. and Ward, I. M. (1968). Brit. J. AppL Plus. (J. Phys. D.), 1, 1529.
McBrierty, V.J., McDonald, I. R. and Ward, I. M.(1971) Brit. J. Appl Phys.(J. Phys D.) 4, 88.
Stachurski, Z. H. and Ward, I. M. (1968). J. Polymer Sci, A2(6), 1083.
Stachurski Z. H. and Ward, I. M. (1968). J. Polymer Sci A2(6), 1817.
Stachurski, Z. H. and Ward, I. M. (1969). J. Macromol. Sci. Phys., B3, 427.
Stachurski, Z.-H. and Ward, I. M. (1969). J. MacromoL Sci. Phys., B3, 445.
Allison, S. W. and Ward, I. M. (1967). Brit. J. AppL Phys., 18, 1151.
Ward, I. M. (1967). Brit. J. Appl Phys., 18, 1165.
Kashiwagi, M, Folkes, M. J. and Ward, I. M. (1971). Polvmer, 12, 697.
Kausch-Bfecken von Schmeling, H. H. (1967). J. AppL Phys., 38, 4213.
Hillier, K. W. and Kolsky, H. (1949). Proc, Phys. Soc., B62, 111.’
Kausch-Blecken von Schmeling, H. H. (1970). Kolhid-Z., 237, 251.
Kausch-Blecken von Schmeling, H. H. (1969). Kolhid-Z., 234, 1148.
Kausch-Blecken von Schmeling, H. H. (1971). J. MacromoL Sci Phys., B5, 269.
Hennig, J. (1964). Kolloid-Z., 200, 46.
Pfennig, J. (1965). Kolloid-Z., 202, 127.
Hennig, J. (1967). J. Polymer Sci, C16, 2751.
Hellwege, K-H, Hennig, J. and Knappe, W. (1963). Kolloid-Z., 188, 121.
Hennig, J. (1964). Kolloid-Z., 196, 136.
Hennig, J. (1967). Kunststoffe, 57, 385.
Müller, F. H, (1967). J. Polymer Sci., C20, 61.
Hellmoth, W., Kilian, H. G. and Müller, F. H. (1967). Kolloid-Z., 218, 10.
Hsiao, C. C. (1959). J. Appl Phys., 30, 1492.
. Kao, S. R. Hsiao, C. C. (1964). J. Appl Phys., 35 , 3127,
Kausch-Blecken von Schmeling, H. H. and Hsiao, C. C. (1968) J. AppL Phys., 39, 4915.
Hsiao, C. C. and Moghe, S. R. (1971). J. MacromoL Sci Phys.. B5, 263.
Charch, W. H. and Moseley, W. W. (1959). Text Res. J, 29, 525.
Morgan, H. M. (1962). Text Res. J., 32, 866.
Ward, I. M. (1964). Text. Res. J., 34, 806.
Frank, F. G, Gupta, V. B. and Ward, I. M. (1970). Phil. Man., 21, 1127.
Owen, A. J. and Ward, I. M. (1973). J. Macromol Sci Phys.,B7, 279.
Read, B. E. and Dean, G. (1970). Polvmer, 11, 597.
Hosemann, R. (1963). J. Appl Phys., 34, 25.
Fischer, E. W. (1969). Kolloid-Z., 231, 458.
Read, B. E. and Stein, R. S. (1968). Macromolecules. 1, 116.
Stein, R. S. and Read, B. E. (1969). J. AppL Polym. Sci Appl Polym. Symp., 8, 255.
Takayanagi M, Harima, H. and Iwata, Y. (1963). M ems. Fac. Eng.. Kyushu Univ., 23, 1.
Takayanagi, M. (1963). M ems. Fac. Eng., Kyushu Univ., 23, 41
Uemura, S. and Takayanagi M. (1966). J. Appl Polym. Sci., 10, 113.
Takayanagi M., Imada, K. and Kajiyama, T. (1966). J. Polymer Sci., C15, 263.
Gray, R. W. and McCrum, N. G (1969). J, Polvmer Sci, A-2, 7, 1329.
Bondi A. (1967). J. Polvmer Sci, A-2, 5, 83.
Willbourn, A. H. (1958). Trans. Farad. Soc.. 54, 717.
Hadley, D. W. and Pretlove, A. J. (Unpublished work).
McCrum, N. G. and Morris, E. L. (1966). Proc. Roy, Soc. A292, 506.
Iwayanagi S. (1962) Rep. Prog, Polym. Phys. Japan, 5, 135.
Hay, I. L. and Keller, A. (1966). J. Mater. Sci 1, 41.
Point, J. J. (1953). J. Chim. Phys., 50, 76,
Seto, T. and Hara, T. (1963). Rep. Prog. Poiym. Phys., Japan, 7, 63.
Hay, I. L. and Keller, A. (1967). J. Mater. Sci., 2, 538.
Gupta, V. B. and Ward, I. M. (1968). J. Macromol. Sci. (Phys) B2, 89.
Davies, G. R., Owen, A. J., Ward, I. M. and Gupta, V. B.(1972) J. Macromol. Sci. ¡Phys.) B6, 215.
Owen, A. J. and Ward I. M. (1971). J. Mater. Sci., 6, 485.
Owen, A. J. (1972). Ph.D. Thesis, Bristol University.
Halpin, J. C. and Kardos, J. L. (1972). J. Appl. Phys., 43, 2235.
Ashton, J. E., Halpin, J. C and Petit, P. H. (1969). Primer on Composite Materials, Technomic, Stamford, Conn., U.S.A.
Halpin, J. C. and Tsai, S. W. (1967). Air Force Materials Lab., Report TR67–423.
Tsai, S. W. and Pagano, N. J. (1968).SPI Composite Materials Workshop (Ed. S. W. Tsai, J. G Halpin and N. J. Pagano), Technomic, Stamford, Conn., U.S.A., p. 233.
Kardos, J. L., McDonnell, L. and Raisoni, J. (1972). J. Macromol. Sci. (Phys.), B6, 397.
Brody, H. and Ward, I. M. (1971). Polym. Engng. Sci., 11, 139.
Hay, I. L. and Keller, A. (1965). Kolloid-Z., 204, 43.
Peterlin, A. (1966). J. Polymer Sci., C15, 427.
Peterlin, A. (1971). J. Mater. Sci 6, 440.
Hosemann, R., Loboda-Cackovic, J. and Cackovic, H. (1972) Z. Naturforsch., 27a, 478.
Hosemann, R., Loboda-Cackovic, J. and Cackovic, H. (1972). J. Mater. Sci 7, 963.
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Hadley, D.W., Ward, I.M. (1975). The Macroscopic Model Approach to Low Strain Properties. In: Ward, I.M. (eds) Structure and Properties of Oriented Polymers. Materials Science Series. Springer, Dordrecht. https://doi.org/10.1007/978-94-010-9803-8_8
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DOI: https://doi.org/10.1007/978-94-010-9803-8_8
Publisher Name: Springer, Dordrecht
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