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  <title>DSpace Collection:</title>
  <link rel="alternate" href="http://dspace.univ-setif.dz:8888/jspui/handle/123456789/274" />
  <subtitle />
  <id>http://dspace.univ-setif.dz:8888/jspui/handle/123456789/274</id>
  <updated>2026-07-09T01:10:11Z</updated>
  <dc:date>2026-07-09T01:10:11Z</dc:date>
  <entry>
    <title>Comportement thermomécanique des céramiques  étudié par spectroscopie mécanique</title>
    <link rel="alternate" href="http://dspace.univ-setif.dz:8888/jspui/handle/123456789/275" />
    <author>
      <name>Schaller, Robert</name>
    </author>
    <id>http://dspace.univ-setif.dz:8888/jspui/handle/123456789/275</id>
    <updated>2015-03-25T11:39:05Z</updated>
    <published>2011-01-01T00:00:00Z</published>
    <summary type="text">Titre: Comportement thermomécanique des céramiques  étudié par spectroscopie mécanique
Auteur(s): Schaller, Robert
Résumé: High temperature plastic or even superplastic deformation of fine-grained ceramics is usually 

interpreted as due to grain boundary sliding. As grain boundary sliding dissipates energy, mechanical 

spectroscopy is well suited to study such a mechanism. In fine-grained tetragonal zirconia, the 

mechanical loss exhibits an exponential increase athigh temperature, which accounts for creep 

appearance in the material. In silicon nitride, a mechanical loss peak related to dissipation in the 

glassy phase pockets has been observed. This peak disappears after annealing leading to the 

recrystallization of the amorphous pockets, leadingto a better creep resistance. Silicon nitride sintered 

under gas pressure contains a very small amount of  glassy phase and consequently exhibits a very 

small mechanical loss peak and consequently a strong resistance to deformation until 1450°C.</summary>
    <dc:date>2011-01-01T00:00:00Z</dc:date>
  </entry>
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