Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
1486139 | Journal of Non-Crystalline Solids | 2006 | 6 Pages |
Abstract
The structure and crystallization behavior of glasses with 25La2O3 · 25B2O3 · 50GeO2 composition, melted in platinum (P glass) and corundum (A glass) crucibles, were studied by DTA, X-ray diffraction and FTIR spectroscopy. The Al2O3 dissolved from corundum crucible in the A glass was estimated to be in the range 5-7 wt%. This alumina content had almost no influence on glass transition temperature but strongly affected the structure and crystallization behavior of the A glass. In fact, the P glass showed good texture-forming ability: high quality textured glass-ceramic plates based on stillwellite-like LaBGeO5 crystals were easily obtained. On the contrary, the presence of alumina stabilized the A glass from which binary phases crystallize first, and only afterwards they are transformed in stillwellite by secondary crystallization: so in this glass texturing is hindered. Crystallization and texturing behavior of P and A glasses were well related to FTIR data. P glass contained both threefold and fourfold coordinated boron while in the A glass the presence of aluminum forced boron to assume almost exclusively threefold co-ordination. Hence the easier crystallization of stillwellite phase and the good textures obtained from the P glass contrary to the A glass, can be well understood since all boron atoms have tetrahedral co-ordination in stillwellite LaBGeO5 crystal.
Related Topics
Physical Sciences and Engineering
Materials Science
Ceramics and Composites
Authors
V.N. Sigaev, P. Pernice, A. Aronne, E. Fanelli, S.V. Lotarev, E.V. Orlova, V. Califano, B. Champagnon, D. Vouagner,