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V. V. Nosov
V. V. Nosov
Saint-Petersburg Mining University
Saint-Petersburg Mining University

Articles

Geo-nanomaterials
  • Date submitted
    2017-03-08
  • Date accepted
    2017-05-17
  • Date published
    2017-08-27

Control of inhomogeneous materials strength by method of acoustic emission

Article preview

The ambiguous connection between the results of acoustic emission control and the strength of materials makes acoustic-emission diagnosis ineffective and actualizes the problem of strength and metrological heterogeneity. Inhomogeneity is some deviation from a certain norm. The real object is always heterogeneous, homogeneity is an assumption that simplifies the image of the object and the solution of the tasks associated with it. The need to consider heterogeneity is due to the need to clarify a particular task and is a transition to a more complex level of research. Accounting for heterogeneity requires the definition of its type, criterion and method of evaluation. The type of heterogeneity depends on the problem being solved and should be related to the property that determines the function of the real object, the criterion should be informative, and the way of its evaluation is non-destructive. The complexity of predicting the behavior of heterogeneous materials necessitates the modeling of the destructive process that determines the operability, the formulation of the inhomogeneity criterion, the interpretation of the Kaiser effect, as showing inhomogeneity of the phenomenon of non-reproduction of acoustic emission (AE) activity upon repeated loading of the examined object. The article gives an example of modeling strength and metrological heterogeneity, analyzes and estimates the informative effect of the Kaiser effect on the danger degree of state of diagnosed object from the positions of the micromechanical model of time dependencies of AE parameters recorded during loading of structural materials and technical objects.

How to cite: Nosov V.V. Control of inhomogeneous materials strength by method of acoustic emission // Journal of Mining Institute. 2017. Vol. 226. p. 469. DOI: 10.25515/PMI.2017.4.469
Mining
  • Date submitted
    2014-12-07
  • Date accepted
    2015-02-23
  • Date published
    2015-06-01

Bump hazard evaluation of a rock mass area as a result of its seismic acoustic activity registration

Article preview

Ore production in deep rock-bump hazardous mines is closely connected with the need to in-crease workers’ safety, which demands heavy costs of taking preventive shockproof actions and applying expensive protection systems against mountain blows. The article considers a resource forecasting technique and a bump hazard evaluation method for a rock mass area, based on a mi-cromechanical model, which registers acoustic emission of heterogeneous materials, and empirical data, obtained as a result of acoustic signals registration with the help of the model, aimed at seis-mic-acoustic activity evaluation at «Taimir» and «Oktyabrsky» rock mass areas, belonging to Norylsk industrial region.

How to cite: Nosov V.V. Bump hazard evaluation of a rock mass area as a result of its seismic acoustic activity registration // Journal of Mining Institute. 2015. Vol. 216. p. 62.