Abstract
For the last few years a new method of visualization and quantitative analysis of physico-mechanical properties and microstructure of heterogenetic media — the acoustic microscopy — has been intensively elaborated in the world. In this method waves of ultrasound and hypersound range are used as an analysis factor. It allows to use this method for investigating a wide variety of opaque materials and goods and obtaining information about their inner structures as well as for optically transparent materials in which the contrast between different structures is practically absent. In both cases an investigator receives information that is quite different from that obtained with the help of other methods, namely, the distribution of local physico-mechanical properties for example, bulk compression, shift, etc. in the material of the sample. We give a review of the results of the work on methods and means of acoustic microscopy, worked out in the Centre for Acoustic Microscopy of the USSR Academy of Sciences for investigation of polymeric composites and biological objects as well as the results of analogical investigations of the loading scientific centres in the world. We set forth common physical basis and principles of getting acoustic images as well as the methods of studying microstructures and mechanical properties of heterogenetic objects with the help of acoustic microscope.References
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[2] N. S. ENIKOLOPIAN, O. V. KOLOSOV, E. Yu. LAGUTENKOVA, R. Gr. MAYEV, D. D. NOVIKOV, Investigations of heterogeneity of polymeric composite materials by methods of acoustic microscopy, Soviet physics, Doklady 292, 6, 1418-1422 (1987).
[3] L. A. PIRUZYAN, O. V. KOLOSOV, R. Gr. MAYER, V. M. LEVIN, T. A. SENYUSHKINA, Acoustic microscopy of organic and biological materials, Soviet Physics. Doklady, 280, 4 6, 1115-1117 (1985).
[4] Proc. of the 5-th Soviet-West Germany symp. on new methods for microscopy in biology and medicine, Moscow 1987, 141-151.
[5] A. BRIGGS, An introduction to scanning acoustic microscopy, Microscopy handbooks 12, Alden Press Oxford 1985.
[6] O. V. KOLOSOV, V. M. LEVIN, R. Gr. MAYEV, T. A. SENYUSHKINA, The use of acoustic microscopy for biological tissue characterization, Ultrasound in Medicine and Biology, 13, 8, 477 483 (1987).
