Modal interpretation of sintering kinetics based on dilatometry

T. Frueh, E. Kupp, C. Compson, J. Atria, N. Rosenberger, G. L. Messing

Research output: Contribution to specialist publicationArticle

Abstract

The densification or sinterability of ceramic powders is typically characterized by holding a series of samples at various times under isothermal conditions and then measuring the resulting dimensional changes, or by heating a sample at a constant heating rate and measuring the shrinkage in a thermal mechanical analyzer (TMA) or dilatometer. With a single sample, dilatometry provides a continuous profile of how the powder densifies or shrinks through the initial, intermediate and final stages of sintering and thus reveals how various factors affect the densification process. The shrinkage behaviour of a powder is governed by physical factors such as particle size, particle size distribution and packing density, and/or powder chemistry, including impurities and dopants [1].

Original languageEnglish (US)
PagesE31-E34
Volume92
No9
Specialist publicationCFI Ceramic Forum International
StatePublished - Sep 2015

Fingerprint

Powders
Sintering
Kinetics
Densification
Dilatometers
Heating rate
Particle size analysis
Particle size
Doping (additives)
Impurities
Heating

All Science Journal Classification (ASJC) codes

  • Ceramics and Composites
  • Materials Chemistry

Cite this

Frueh, T. ; Kupp, E. ; Compson, C. ; Atria, J. ; Rosenberger, N. ; Messing, G. L. / Modal interpretation of sintering kinetics based on dilatometry. In: CFI Ceramic Forum International. 2015 ; Vol. 92, No. 9. pp. E31-E34.
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Frueh, T, Kupp, E, Compson, C, Atria, J, Rosenberger, N & Messing, GL 2015, 'Modal interpretation of sintering kinetics based on dilatometry' CFI Ceramic Forum International, vol. 92, no. 9, pp. E31-E34.

Modal interpretation of sintering kinetics based on dilatometry. / Frueh, T.; Kupp, E.; Compson, C.; Atria, J.; Rosenberger, N.; Messing, G. L.

In: CFI Ceramic Forum International, Vol. 92, No. 9, 09.2015, p. E31-E34.

Research output: Contribution to specialist publicationArticle

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