Ваш браузер устарел.

Для того, чтобы использовать все возможности сайта, загрузите и установите один из этих браузеров.



  • Title

    The uncertainties calculation of acoustic method for measurement of dissipative properties of heterogeneous non-metallic materials

  • Authors

    Golofeyeva Мaryna O.
    Tonkonogy Volodymyr М.
    Golofeyev Yuriy M.

  • Subject


  • Year 2015
    Issue 3(47)
    UDC [620.1:678-1]:534.083
    DOI 10.15276/opu.3.47.2015.15
    Pages 104-110
  • Abstract

    The effective use of heterogeneous non-metallic materials and structures needs measurement of reliable values of dissipation characteristics, as well as common factors of their change during the loading process. Aim: The aim of this study is to prepare the budget for measurement uncertainty of dissipative properties of composite materials. Materials and Methods: The method used to study the vibrational energy dissipation characteristics based on coupling of vibrations damping decrement and acoustic velocity in a non-metallic heterogeneous material is reviewed. The proposed method allows finding the dependence of damping on vibrations amplitude and frequency of strain-stress state of material. Results: Research of the accuracy of measurement method during the definition of decrement attenuation of fluctuations in synthegran was performed. The international approach for evaluation of measurements quality is used. It includes the common practice international rules for uncertainty expression and their summation. These rules are used as internationally acknowledged confidence measure to the measurement results, which includes testing. The uncertainties budgeting of acoustic method for measurement of dissipative properties of materials were compiled. Conclusions: It was defined that there are two groups of reasons resulting in errors during measurement of materials dissipative properties. The first group of errors contains of parameters changing of calibrated bump in tolerance limits, displacement of sensor in repeated placement to measurement point, layer thickness variation of contact agent because of irregular hold-down of resolvers to control surface, inaccuracy in reading and etc. The second group of errors is linked with density and Poisson’s ratio measurement errors, distance between sensors, time difference between signals of vibroacoustic sensors.

  • Keywords

    dissipative properties, damping decrement, an acoustic measurement method, measurement uncertainty

  • Viewed: 1837 Dowloaded: 6
  • Download Article
  • References

    1.    Голофеева, М.А. Акустический метод контроля синтеграновых изделий / М.А. Голофеева // Проблеми техніки. — 2013. — № 3. — С. 119—124.
    2.    Prandina, M. An assessment of damping identification methods / M. Prandina, J.E. Mottershead, E. Bonisoli // Journal of Sound and Vibration. — 2009. — Vol. 323, Issues 3–5. — PP. 662—676.
    3.    Slaev, V.A. Metrology and theory of measurement / V.A. Slaev, A.G. Chunovkina, L.A. Mironovsky. — Berlin; Boston: De Gruyter, 2013. — 560 p.
    4.    Probability-possibility transformations, triangular fuzzy sets, and probabilistic inequalities / D. Dubois, L. Foulloy, G. Mauris, H. Prade // Reliable Computing. — 2004. — Vol. 10, Issue 4. — PP. 273—297.
    5.    Захаров, И.П. Особенности оценивания неопределенностей результатов параллельных измерений / И.П. Захаров, А.П. Сергиенко, М.П. Сергиенко // Системи обробки інформації. — 2008. — Вип. 4(71). — С. 59—62.


    1.    Golofeyeva, M.A. (2013). Acoustic control method of synthegran products. Problemy Tekhniky, 3, 119—124.
    2.    Prandina, M., Mottershead, J.E., & Bonisoli, E. (2009). An assessment of damping identification methods. Journal of Sound and Vibration, 323(3-5), 662–676. DOI:10.1016/j.jsv.2009.01.022
    3.    Slaev, V.A., Chunovkina, A.G., & Mironovsky, L.A. (2013). Metrology and Theory of Measurement. Berlin; Boston: De Gruyter.
    4.    Dubois, D., Foulloy, L., Mauris, G., & Prade, H. (2004). Probability-possibility transformations, triangular fuzzy sets, and probabilistic inequalities. Reliable Computing, 10(4), 273—297. DOI:10.1023/B:REOM.0000032115.22510.b5
    5.    Zakharov, I.P., Sergienko, A.P., & Sergienko, M.P. (2008). The particular qualities of analytical measurements uncertainly. Sistemi Obrobki Informacii, 4, 59—62.

  • Creative Commons License by Author(s)