Journal
JOURNAL OF NON-CRYSTALLINE SOLIDS
Volume 434, Issue -, Pages 71-78Publisher
ELSEVIER
DOI: 10.1016/j.jnoncrysol.2015.12.015
Keywords
Laser ablation; Mass spectrometry; Glasses; Surface; Breaking
Ask authors/readers for more resources
Mass spectrometric analysis of newly formed surface on breaking a sodium borosilicate glass bar revealed its significant enrichment with sodium, slight higher content of boron and depletion in Mg, Ca, Al, Ti and Mo compared the initial glass surface. This conforms to recent low energy ion observation of Almeida et al. and evidences on modified random network microstructure and medium range order in silicate glasses. The glass investigated was a borosilicate glass (wt.%) 48.2 center dot SiO2 7.5 center dot B2O3 2.5 center dot Al2O3 1.5 center dot Fe2O3 15.5 center dot CaO 16.1 center dot Na2O 8.7 center dot Misc which is a simulant of high-sodium nuclear waste glass K-26. The glass bar after annealing was broken openly in air using a hammer. Laser Ablation System New Wave UP 213 coupled with laser ablation-inductively coupled plasma-mass spectrometry ICP-MS 4500 system was used for analyses. The mass spectrometric analysis comprised the elements: Mo-95, B-11, Na-23, Mg-24, Al-27, Si-30, Ca-43, and Ti-47. The laser ablation was taken samples from the freshly formed surface as well as from its initial surface of glass bars. The relative changes of average normalised mass spectrometric signal intensities on formation of a new glass surface were as follows: 1.14 for B-11, 1.35 for Na-23, 0.8 for Mg-24, 0.83 for Al-27, 0.75 for Ca-43. 0.76 for Ti-47 and 0.77 for Mo-95. These data evidence on modified random network microstructure and show that the glass breaks along weaker ionic percolating channels formed by alkalis so resulting in alkali enriched surfaces. The results obtained may be useful for configuron percolation theory of glass transition, interpretation and controlling glass corrosion, as well as for potential applications in medicine and biology. (C) 2015 Elsevier B.V. All rights reserved.
Authors
I am an author on this paper
Click your name to claim this paper and add it to your profile.
Reviews
Recommended
No Data Available