ATOMIC FORCE MICROSCOPY AS AN EFFECTIVE TOOL STUDY STRUCTURE AND MECHANICAL PROPERTIES OF POLYMERIC MATERIALS AT THE MICRO AND NANOSCALE

Authors

  • O.K. Garishin Институт механики сплошных сред УрО РАН

DOI:

Keywords:

Atomic-force microscope, nanoindentation, polymer, nanocomposite

Abstract

This paper describes the basic principles of atomic force microscope (AFM) - one of the most promising tools for studying nanostructured materials. Experimental results of the study of the structure and local mechanical properties of polymeric materials and nanocomposites are presented. Also, the results of theoretical modeling of the contact mode of AFM needed to provide adequate treatment and interpretation of experimental data are described. Conditions of applicability of standard techniques of AFM software for description of experimental scans for the case of polymeric materials are defined.

Supporting Agencies
Работа выполнена при финансовой поддержке Российского фонда фундаментальных исследований и Министерства промышленности, инноваций и науки Пермского края (гранты 11-08-96001-р_урал_а, 13-08-00065)

Author Biography

  • O.K. Garishin, Институт механики сплошных сред УрО РАН
    доктор физико-математических наук, старший научный сотрудник

References

  1. Schuh C.A. Nanoindentation studies of materials // Materials Today. - 2006. - Vol. 9. - No 5. - P. 32-40.
  2. Binnig G., Quate C.F., Gerber C. Atomic force microscope. Surface studies by scanning tunneling microscopy // Phys. Rev. Lett. - 1986. - Vol. 56. - No 9. - P. 930-933.
  3. Cvalun S.N. Polimernye nanokompozity // Priroda. - 2000. - No 7. - S. 22-30.
  4. Bhushan B. Handbook of micro-mano-tribology. - Springer, 1999. - 433 p.
  5. Relating elastic modulus to indentation response using atomic force microscopy / M.R. Vanlandingham, S.H. McKnicht, G.R. Palmese, R.F. Eduljee, J.W. Gillepie, Jr.R.L. McCulough // J. Mater. Sci. Let. - 1997. -Vol. 16. - P. 117-119.
  6. Computational modeling of the forward and reverse problems in instrumented indentation / M. Dao, N. Chollacoop, K.J. Van Vliet, T.A. Venkatesh, S. Suresh // Acta Mater. - 2001. - Vol. 49. - No 19. -P. 3899-3918.
  7. Fischer-Cripps A.C. Nanoindentation and indentation measurements // Mater. Sci. Eng. - 2004. - Vol. 44. -P. 91-102.
  8. Carlsson S., Larsson P.-L. On the determination of residual stress and strain fields by sharp indentation testing. Part I: theoretical and numerical analysis // Acta Mater. - 2001. - Vol. 49. - No 12. - P. 2179-2191.
  9. Fischer-Cripps A.C. Nanoindentation. - Springer, 2002. - 217 p.
  10. Golovin U.I. Vvedenie v nanotehnologiu. - M.: Masinostroenie, 2003. - 112 s.
  11. Mironov V.L. Osnovy skaniruusej zondovoj mikroskopii. - N. Novgorod: izd-vo In-ta fiziki mikrostruktur RAN, 2004. - 115 s.
  12. Derjaguin B.V., Muller V.M., Toropov Yu.P. Effect of contact deformations on the adhesion of particles // J. Colloid. Interface Sci. - 1975. - Vol. 53. - No 2. - P. 314-326.
  13. Deragin B.V., Curaev N.V., Muller V.M. Poverhnostnye sily. - M.: Nauka, 1985. - 398 s.
  14. Garisin O.K., Morozov I.A., Sadrin V.V. Eksperimental’nye issledovania polimer-silikatnyh nanokompozitov s pomos’u atomno-silovogo mikroskopa // Vestnik PNIPU: Mehanika. - 2013. -No 2. - C. 84-95.
  15. Izumov R.I., Svistkov A.L. Kartograficeskij metod analiza svojstv poverhnosti // Vestnik Permskogo universiteta. Seria: Fizika. - 2012. - T. 22. - No 4. - S. 69-72.
  16. Timosenko S.P. Teoria uprugosti. - M.: Nauka, 1975. - 576 c.
  17. Morozov I.A., Solod’ko V.N. Issledovanie oblastej tresin kaucukovyh vulkanizatov metodami atomno-silovoj mikroskopii // Vestnik Permskogo universiteta. Seria: Fizika. - 2012. - T. 22. -No 4. - S. 158-165.
  18. Svistkov A.L., Lauke B. Differencial’nye opredelausie uravnenia neszimaemyh sred pri konecnyh deformaciah // PMTF. - 2009. - T. 50. - S. 158-170.

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Published

2014-09-12

Issue

No. 2 (2014)

Section

Research: theory and experiment

How to Cite

Garishin, O. . (2014). ATOMIC FORCE MICROSCOPY AS AN EFFECTIVE TOOL STUDY STRUCTURE AND MECHANICAL PROPERTIES OF POLYMERIC MATERIALS AT THE MICRO AND NANOSCALE. Perm Federal Research Centre Journal, 2, 23-33. https://journal.permsc.ru/index.php/pscj/article/view/PSCJ2014n2p3