Showing 3 results for Zhang
Zhang S.,
Volume 2, Issue 3 (Apr 2005)
Abstract
Hydration behavior and antioxidising effect of aluminium (AI) powder has been investigated. Bayerite Al (OH) 3 product layers formed on Al in pure water at 25-45°C were porous, so the hydration rate, although very slow at 25°C, increased rapidly with increasing temperature from 25 to 45°C. On further increasing temperature from 45 to 95°C, initial hydration rate increased, but changed little over long hydration periods due to formation of denser and more continuous product layers. At 100?C, due to rapid water-evaporation, hydration product layers (composed of Al (OH)3 and a small amount of boehmite AlO (OH) became detached from the Al surfaces, so offering less protection, so that the hydration rate of Al increased markedly. The presence of MgO or calcium aluminate cement (CAC) in water did not change the hydration product, but greatly accelerate the hydration rate of AI. Addition of even a small amount (e.g. 0.25 wt% of Al amount) of MgO or CAC to water accelerated significantly the hydration of Al, and with increasing level of MgO or CAC, the hydration extent increased markedly. Sol-gel Si02 coatings on Al were useful in improving the hydration resistance of Al, and did not have a negative effect on the behavior of Al as an antioxidant.
Y. Safaei-Naeini, F. Golestani-Fard, F. Khorasanizadeh, M. Aminzare, S. Zhang,
Volume 8, Issue 3 (september 2011 2011)
Abstract
Abstract:
composition of MgO and nano boehmite. The reactant and potassium chloride, as the reaction media, were fired at
800-1000 °C at different dwell times (0.5-5 h) in the ambient atmosphere. After washing and filtration, the spinel nano
powder was characterized by X-ray diffraction (XRD), Scanning electron microscopy (SEM), and Brunauer-Emmett-
Teller (BET) techniques. It was demonstrated that the formation temperature decreased to 850
particles revealed an average size of 30 nm with a narrow size distribution. The mechanism of MgAl
was found to be a template type where the morphology and size of product were similar to those of alumina formed
from boehmite decomposition. Prolonging the reaction time from 0.5 to 3 h, the reaction was further completed and
crystallinity was improved. However, the increase of temperature was more effective in this regard.
MgAl2O4 (MA) nano powder was synthesized via molten salt technique, by heating stochiometric°C. The nano spinel2O4 formation
R. Fazli, F. Golestani-Fard, Y. Safaei-Naeini, S. Zhang,
Volume 11, Issue 3 (september 2014)
Abstract
Well crystallized pure calcium zirconate (CaZrO3
) nanopowder was successfully synthesized using the
molten-salt method. CaCl2
, Na
2CO3, micro-ZrO
2and nano-ZrO
2
were used as starting materials. On heating, Na2CO3
reacted with CaCl
2to form NaCl and CaCO
3. Nano CaZrO
3
was formed by reacting equimolar amounts of in situformed CaCO
3 (or CaO) and ZrO
2
in molten Na
2CO3-NaCl eutectic mixture. CaZrO
3
particle size and synthesis
temparture was tailored as a function of ZrO
2particle size. Due to the usage of nano-ZrO
2
, the molten salt synthesis
(MSS) temperature was decreased and possible impurity phases in the final product were suppressed. The synthesis
temperature was lowered to 800°C and soaking time of the optimal synthesis condition was reduced to 3h. After
washing with hot-distilled water, the n-ZrO2sample heated at 800°C for 3h, was single phase CaZrO
3with 70-90 nm
in particle size, while the m-ZrO
2sample heated at 1000°C for 3h, was single phase CaZrO
3
with 250-400 nm in
particle size. Based on the TEM observation and thermodynamic analysis, the synthesized CaZrO
3
grains retained the
morphology of the ZrO2
nanopowders, which indicated that a template formation mechanism play a dominant role in
synthesis process
