Baborak J, Yembele M, Varak P, Ory S, Veron E, Pitcher MJJ, Allix M, Nekvindova P, Zandona A (2023)
Publication Type: Journal article
Publication year: 2023
DOI: 10.1111/ijag.16627
Binary alkali silicate glasses were synthesized as beads by aerodynamic levitation coupled to laser heating to test the applicability of the method to this compositional range. While bubble-free lithium disilicate beads could be easily obtained, sodium and potassium silicates proved more challenging to melt without significant alkali evaporation: the final samples contained bubbles and exhibited compositional drifts compared to the starting stoichiometry, especially at high SiO
APA:
Baborak, J., Yembele, M., Varak, P., Ory, S., Veron, E., Pitcher, M.J.J.,... Zandona, A. (2023). Key melt properties for controlled synthesis of glass beads by aerodynamic levitation coupled to laser heating. International Journal of Applied Glass Science. https://dx.doi.org/10.1111/ijag.16627
MLA:
Baborak, Jan, et al. "Key melt properties for controlled synthesis of glass beads by aerodynamic levitation coupled to laser heating." International Journal of Applied Glass Science (2023).
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