Interfacial Reactions between Lithium Silicate Glass-ceramics and Ni-based Superalloys and the Effect of Heat Treatment at Elevated Temperatures

Abstract

The deformation and crystallization of Li2O·2SiO2 and Li2O·1.6SiO2 glass fibers subjected to a bending stress were measured as a function of time over the temperature range sim50 to sim150°C below the glass transition temperature (T g). The glass fibers can be permanently deformed at temperatures about 100°C below T g, and they crystallize significantly at temperatures close to, but below T g, about 150°C lower than the onset temperature for crystallization for these glasses in the no-stress condition. The crystallization was found to occur only on the surface of the glass fibers with no detectable difference in the extent of crystallization in tensile and compressive stress regions. The relaxation mechanism for fiber deformation can be best described by a stretched exponential (Kohlrausch-Williams- Watt (KWW) approximation), rather than a single exponential model. The activation energy for stress relaxation, E s, for the glass fibers ranges between 175 and 195 kJ/mol, which is considerably smaller than the activation energy for viscous flow, E eegr (sim400 kJ/mol) near T g for these glasses at normal, stress-free condition. It is suspected that a viscosity relaxation mechanism could be responsible for permanent deformation and crystallization of the glass fibers below T g.

Department(s)

Materials Science and Engineering

Keywords and Phrases

Interfacial Reactions; Ni-Based Superalloys; Elevated Temperatures; Heat Treatment; Lithium Silicate Glass-Ceramics

International Standard Serial Number (ISSN)

0022-2461

Document Type

Article - Journal

Document Version

Citation

File Type

text

Language(s)

English

Rights

© 2004 Kluwer Academic Publishers / Springer Verlag, All rights reserved.

Publication Date

01 Jan 2004

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