Johannes Häßler scite author profile

A glass with the composition 60 SiO2, 37 B2O3, and 3 Na2O was casted and subsequently cooled to room temperature. During subsequent heat treatment at temperatures in the range from 520 to 680°C, the glass shows phase separation and SiO2‐rich droplets in a B2O3‐rich matrix are formed. The droplet size strongly depends on the temperature and duration of heat treatment. In the dilatometric curves of the phase‐separated glasses, two glass transition temperatures are observed. At high annealing temperatures, the transition temperatures vary according to the decomposition cupola. At lower temperatures, the phase formation is restricted by the kinetics. Particle sizes and growth rates are not governed by Ostwald ripening and deviate from the expected rate law d ~ t1/3. The exponent in the rate law is much smaller than one‐third, and hence, the coarsening of the droplet structured is hindered. In analogy to crystal growth models reported in the literature, this growth hindrance is explained by the formation of a highly viscous shell around growing particles.

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Sol–gel powder synthesis and preparation of ceramics with high- and low-temperature polymorphs of Ba Sr1-Zn2Si2O7 (x= 1 and 0.5): A novel approach to obtain zero thermal expansion

Kracker

Thieme

Häßler

et al. 2016

Journal of the European Ceramic Society

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Johannes Häßler

Effect of microstructure of a phase separated sodium-borosilicate glass on mechanical properties

Self‐Organized Growth of Sodium Borate‐Rich Droplets in a Phase‐Separated Sodium Borosilicate Glass

Sol–gel powder synthesis and preparation of ceramics with high- and low-temperature polymorphs of Ba Sr1-Zn2Si2O7 (x= 1 and 0.5): A novel approach to obtain zero thermal expansion

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