Detail publikace

New Possibilities of Non-destructive Testing of Ceramic Specimen Integrity

Originální název

New Possibilities of Non-destructive Testing of Ceramic Specimen Integrity

Anglický název

New Possibilities of Non-destructive Testing of Ceramic Specimen Integrity

Jazyk

en

Originální abstrakt

The article deals with results of our experimental study focused on new methods of nonlinear ultrasonic spectroscopy for detection of structure integrity damage in ceramic material usage. There were analysed undamaged specimens and also specimens containing defects of cracks type. Intact specimens measurement results proved that non-homogeneity of ceramic material is not source of nonlinear effects accompanying elastic waves propagation. Dynamic material response of samples with damaged material integrity was demonstrated by formation of new frequency components in the response frequency spectra.

Anglický abstrakt

The article deals with results of our experimental study focused on new methods of nonlinear ultrasonic spectroscopy for detection of structure integrity damage in ceramic material usage. There were analysed undamaged specimens and also specimens containing defects of cracks type. Intact specimens measurement results proved that non-homogeneity of ceramic material is not source of nonlinear effects accompanying elastic waves propagation. Dynamic material response of samples with damaged material integrity was demonstrated by formation of new frequency components in the response frequency spectra.

Dokumenty

BibTex


@article{BUT45145,
  author="Marta {Kořenská} and Monika {Manychová}",
  title="New Possibilities of Non-destructive Testing of Ceramic Specimen Integrity",
  annote="The article deals with results of our experimental study focused on new methods of nonlinear ultrasonic spectroscopy for detection of structure integrity damage in ceramic material usage.  There were analysed undamaged specimens and also specimens containing defects of cracks type. Intact specimens measurement results proved that non-homogeneity of ceramic material is not source of nonlinear effects accompanying elastic waves propagation.  Dynamic material response of samples with damaged material integrity was demonstrated by formation of new frequency components in the response frequency spectra.",
  address="Institute of Chemical Technology, Institude of Inorganic Chemistry",
  chapter="45145",
  institution="Institute of Chemical Technology, Institude of Inorganic Chemistry",
  journal="Ceramics-Silikáty",
  number="1",
  volume="54",
  year="2010",
  month="may",
  pages="72--77",
  publisher="Institute of Chemical Technology, Institude of Inorganic Chemistry",
  type="journal article - other"
}