Kolloid-Zeitschrift und Zeitschrift für Polymere

, Volume 206, Issue 2, pp 97–103 | Cite as

Relationship between x-ray pattern and defects-distribution in a polymer crystal

  • Toshihiko Amano
Originalarbeiten Polymere
Received:

Summary

The relationship between anx-ray pattern and a defects-distribution in a polymer crystal is derived mathematically. The results are classified into three typical cases by the probabilities of a defects-distribution. Each case is demonstrated by means of an optical diffraction method.

The consequence is applied to the interpretation of the layer line streaks, found in ax-ray diagram of a well-oriented isotactic polypropylene.

Keywords

Polymer Physical Chemistry Polypropylene Typical Case Diffraction Method 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

Zusammenfassung

Die Beziehung zwischen einem Röntgeninterferenzdiagramm und einer Störstellenverteilung in einem Polymerkristall wird mathematisch abgeleitet. Die Ergebnisse lassen sich gemÄ\ der Wahrscheinlichkeitsverteilung der Defekte in drei typische FÄlle klassifizieren. Jeder dieser FÄlle wird mittels optischer Beugung demonstriert.

Die Folgerungen werden auf die Interpretation der Schichtlinien-Streifen, die man im Röntgendiagramm eines hochorientierten isotaktischen Polypropylens findet, angewendet.

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

Preview

Unable to display preview. Download preview PDF.

Unable to display preview. Download preview PDF.

References

  1. 1).
    Zaukelies, D. A., J. Appl. Phys.33, 2797 (1963).Google Scholar
  2. 2).
    Geil, P. H., ‘Polymer Single Crystals’ Interscience (New York 1963).Google Scholar
  3. 3).
    Seto, T., Kobunshi (in Japanese)13, 45 (1964).Google Scholar
  4. 4).
    Reneker, D. H., J. Polymer Sci.59, 79 (1962).Google Scholar
  5. 5).
    Hosemann, R., J. Appl. Phys.34, 25 (1963); Polymer3, 349 (1962);Bonart, R., Z. Krist.109, 309 (1957);Hosemann, R. andS. N. Bagchi, ‘Direct Analysis of Diffraction by Matter’, North-Holland (Amsterdam 1962).Google Scholar
  6. 6).
    Guinier, A., ‘Théorie et Technique de la Radiocristallographie’, Dunod (Paris 1956).Google Scholar
  7. 7).
    Warren, B. E. andB. L. Averbach, J. Appl. Phys.21, 595 (1950).Google Scholar
  8. 8).
    Alfrey, T. Jr.,J. J. Bohrer andH. Mark, ‘Copolymerization’ Interscience (New York 1952).Google Scholar
  9. 9).
    Miller, R. L. andL. E. Nielsen, J. Polymer Sci.46, 303 (1960).Google Scholar
  10. 10).
    Clark, E. S. andL. T. Muus, Z. Krist.117, 108 (1962); ibid.117, 119 (1962).Google Scholar
  11. 11).
    Natta, G. andP. Corradini, Nuovo Cimento Supplemento15, serie X, 40 (1960).Google Scholar
  12. 12).
    McCullough, R. L. andR. L. Miller, J. Polymer Sci. B1., 77 (1963).Google Scholar
  13. 13).
    Natta, G., Makromol. Chem.35, 94 (1960);Levine, M. andS. C. Temin, J. Polymer Sci.49, 241 (1961).Google Scholar

Copyright information

© Dr. Dietrich Steinkopff Verlag 1965

Authors and Affiliations

  • Toshihiko Amano
    • 1
  1. 1.Textile Research LaboratoryAsahi Chemical Industry Co., Ltd.TakatsukiJapan

Personalised recommendations