On heating, hydrated boron minerals, colemanite and ulexite lose their wate
r of crystalisation while undergoing various mineralogical and structural c
hanges.
In this study, the nature and mechanisms of the thermal reactions of ulexit
e have been determined by TG, DTG and DTA. The changes in the structure hav
e been investigated by XRD, SEM, and Hg-porosimetry. Thermal decomposition
of ulexite occurred within the temperature range 60-500 degreesC with two d
ehydration stages proceeded by two dehydroxylation stages. The structure wa
s first transformed into NaCaB5O6(OH)(6). 3H(2)O within 60-180 degreesC, th
en into NaCaB5O6(OH)(6).H2O within 151-260 degreesC. Amorphisation took pla
ce along with dehydroxylation. The structure was first transformed into a m
ulti-domain heterogeneous matrix consisting of NaCaB5O6(OH)(6).H2O and an a
morphous phase to X-ray during the first stage of dehydroxylation within 18
0-260 degreesC. Then remaining hydroxyl groups removed between 260 and 500
degreesC. The sample has become completely X-ray amorphous. During the grad
ual liberation of water vapour, the structure developed numerous microcrack
s and had exfoliated without decrepitating. The microcracks increased the d
egree of porosity and the structure became more easy to grind. Furthermore,
the amorphous structure recrystallised as NaCaB5O9 at 636 degreesC and tra
nsformed into CaB2O4. Any remaining NaB3O5 after 855 degreesC was amorphous
. (C) 2000 Elsevier Science B.V. All rights reserved.