Dental Materials
Volume 25, Issue 5 , Pages 557-565 , May 2009

A study of the adhesion between dental cement and dentin using a nondestructive acoustic microscopy approach

  • Liudmila A. Denisova

      Affiliations

    • International Center for Advanced Material Characterization, Emanuel Institute for Bio-chemical Physics RAS, Moscow, Russia
    • ,
  • Roman Gr. Maev

      Affiliations

    • Department of Physics, University of Windsor, 401 Sunset Avenue, Windsor, Ontario, Canada N9B 3P4
    • ,
  • Valery K. Leontjev

      Affiliations

    • Material Research Laboratory of the Central Research Dental Institution, Moscow, Russia
    • ,
  • Alexandre F. Denisov

      Affiliations

    • International Center for Advanced Material Characterization, Emanuel Institute for Bio-chemical Physics RAS, Moscow, Russia
    • ,
  • George G. Grayson

      Affiliations

    • Ultradent Clinical Research Ltd., Windsor, Ontario, Canada
    • ,
  • Fedor S. Rusanov

      Affiliations

    • Material Research Laboratory of the Central Research Dental Institution, Moscow, Russia
    • ,
  • Evgeny Yu. Bakulin

      Affiliations

    • Department of Physics, University of Windsor, 401 Sunset Avenue, Windsor, Ontario, Canada N9B 3P4
    • Corresponding Author InformationCorresponding author. Tel.: +1 519 253 3000x2661; fax: +1 519 973 7075.
    • ,
  • Dmitry Yu. Gavrilov

      Affiliations

    • Department of Physics, University of Windsor, 401 Sunset Avenue, Windsor, Ontario, Canada N9B 3P4
    • ,
  • Tatiana V. Grineva

      Affiliations

    • Stomadent Ltd., Tomilino, Moscow Region, Russia

Received 16 June 2008 ,Revised 4 October 2008 ,Accepted 27 October 2008.

References 

  1. Labouret S, Looten-Baquet I, Bruneel C, Frohly J. Ultrasound method for monitoring rheology properties evolution of cement. Ultrasonics. 1998;36:205–208
  2. Wu TT, Liu PL. Advancement on the nondestructive evaluation of concrete using transient elastic waves. Ultrasonics. 1998;36:197–204
  3. Maev RGr. Acoustic microscopy. Fundamentals and application. Wiley–VCH; 2008;
  4. Zheng JP, Maeva EYu, Denisov AA, Maev RGr. Ultrasound imaging of human teeth using desktop scanning acoustic microscope. In:  Lee Hua editors. Acoustical imaging. vol. 24:New York–London–Moscow: Kluwer Academic/Plenum Publishers; 2000;p. 165–171
  5. Denisova LA, Nasyrova NV, Maev RGr, Grigorian AS, Grigoriants LA, Denisov AA, et al. Using an acoustic microscope for the investigation of dental cements designed for the retrograde restoration of teeth roots. Stomatologia. 2002;81(1):26–31[in Russian]
  6. Denisova LA, Maev RGr, Grineva TV, Poyurovskaya IYa, Denisov AF, Maeva EYu, et al. The use of acoustic microscopy to study the mechanical properties of glass-ionomer cement. Dent Mater. 2004;20:358–363
  7. Wichard R, Schlegel J, Haak R, Roulet JF, Schmitt RM. Dental diagnosis by high frequency ultrasound. In:  Torboli P,  Masotti L editor. Acoustical imaging. vol. 22:New York: Plenum Press; 1996;p. 329–334
  8. Ghoraeb SR, Valle T. Experimental evaluation of human teeth using noninvasive ultrasound: echodentograpgy. IEEE Trans UFFC. 2002;49(10):1437–1443
  9. Maev RGr, Denisova LA, Maeva EYu, Denisov AA. New data on histology and physico-mechanical properties of human tooth tissue obtained with acoustic microscopy. Ultrasound Med Biol. 2002;28(1):131–136

PII: S0109-5641(08)00257-1

doi: 10.1016/j.dental.2008.10.011

Dental Materials
Volume 25, Issue 5 , Pages 557-565 , May 2009

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