Why is IIT BHU the worst IIT

Structure and conformation calculation in polymers

Current Problems in Polymer Physics I pp 985-993 | Cite as

II. Ideal crystal and defect state (bundle model) of polyethylene
  • Gerhard Wobser
  • Siegfried Blasenbrey
Part of the Current Problems in Polymer Physics book series (2845, volume 1)

Summary

Starting from a bundle of ideally packed chains, Bad luck and co-workers (1, 2, 3, 4) a model of the microstructure of polymer materials can be developed by introducing molecularly detectable defects, which describes the melt and crystal in a uniform manner.

Presented at the working session of the Expert Committee on Physics of High Polymers at the 1970 spring meeting of the regional association Hessen-Mittelrhein-Saar of the German Physical Society in Darmstadt, 10. – 13. March 1970.

This is a preview of subscription content, log in to check access.

Preview

Unable to display preview. Download preview PDF.

literature

  1. Pechhold, W.., Colloid-Z. and currently polymers 228, 1 (1968). CrossRefGoogle Scholar
  2. Pechhold, W.. and S. Bladder Brey, Colloid-Z. and currently polymers 216/217, 235 (1967). CrossRefGoogle Scholar
  3. Bubble Brey, S.. and W. Pechhold, Ber. physics. Chem. Bunsenges. 74, 784 (1970). Google Scholar
  4. Pechhold, W.. and S. Bladder Brey, Colloid-Z. and currently polymers 241, 955 (1970). CrossRefGoogle Scholar
  5. Kitajgorodsky, A.I., Acta Cryst. 18, 585 (1965). CrossRefGoogle Scholar
  6. Williams, D.E.., J. Chem. Phys. 47, 4680 (1967). CrossRefGoogle Scholar
  7. McMahon, P.E., R.L. McCullough and A. A. Schlegel, J. Appl. Phys. 38, 4123 (1967). CrossRefGoogle Scholar
  8. Wobser, G. and P. C. Hägele, Ber. physics. Chem. Bunsenges. 74, 896 (1970). Google Scholar
  9. Nägele, P. C. and W. Pechhold, Colloid-Z. and currently polymers 241, 977 (1970). CrossRefGoogle Scholar
  10. Müller, A., Proc. Roy. Soc. (London) A 154, 624 (1936). CrossRefGoogle Scholar
  11. Bunn, C. W.., Trans. Faraday Soc. 35, 482 (1939). CrossRefGoogle Scholar
  12. Billmeyer, F. W., Jr.., J. Appl. Phys. 28, 1114 (1957). CrossRefGoogle Scholar
  13. Hendus, H.., cited in (22) .Google Scholar
  14. Swan, P.R., J. Polymer Sci. 56, 403 (1962). CrossRefGoogle Scholar
  15. Shen, M., W. N. Hansen, P. C. Romo, J. Chem. Phys. 51, 425 (1969). Google Scholar
  16. Teare, P.W.., Acta Cryst. 12, 294 (1959). CrossRefGoogle Scholar
  17. Smith, A.E.., J. Chem. Phys. 21, 2229 (1953). CrossRefGoogle Scholar
  18. Zugenmaier, P.., Dissertation (Freiburg 1969). Colloid-Z. and currently polymers 230, 229 (1969). CrossRefGoogle Scholar
  19. Crowell, A.D., J. Chem. Phys. 29, 446 (1958). CrossRefGoogle Scholar
  20. Odajima, A.. and T. Maeda, J. Polymer Sci. C 15, 55 (1966). Google Scholar
  21. Abe, A., R.L. Jernigan, P.J. Flory, J.Amer. Chem. Soc. 88, 631 (1966). CrossRefGoogle Scholar
  22. Wunderlich, B. and H. Baur, Adv. Polymer Sci. 7, 151 (1970). CrossRefGoogle Scholar
  23. Anand, J. N., J. Macromol. Sci-Phys. B 1 (3), 445 (1967). CrossRefGoogle Scholar
  24. Leibfried, G.., Handbuch der Physik VII / 1 (Berlin, Göttingen, Heidelberg 1955) .Google Scholar
  25. Ludwig, W., Springer Tracts in Modern Physics 43, (Berlin, Heidelberg, New York 1967) .Google Scholar
  26. Schachtschneider, J. H., Spectrochim. Acta 19 117 (1963). CrossRefGoogle Scholar
  27. Takahashi, H.. et al., J. Mol. Spectry 13, 43 (1964). CrossRefGoogle Scholar
  28. Buckley, C.P., R.W. Gray, N.G. Mc Crumm, Polymer letters 7, 835 (1969). CrossRefGoogle Scholar
  29. Schilling, W.., Dissertation (Stuttgart 1968) .Google Scholar
  30. Hellwege, K. H., W. Knappe, W. Lehmann, Colloid-Z. and currently polymers 183 118 (1962). CrossRefGoogle Scholar

Copyright information

© Springer-Verlag Berlin Heidelberg 1970

Authors and Affiliations

  • Gerhard Wobser
  • Siegfried Blasenbrey
  1. 1. Physics Institute, Polymers Department, University of Stuttgart 7 Stuttgart-Vaihingen, Germany