A survey of the li
A
survey of the liquid-crystal phase transition of a hard sphere BCC with the
optimized spherical approximation based on the modified weighted density function
theory and its application in color science.
K. Heydari
Islamic Azad University,
Science and Research Branch, Khouzestan, Iran.
Abstract: In
accordance with the weighted density function theory (WDA), another formulation
for the non-uniform classical fluids has been suggested. This mentioned formula
has been termed as “the modified weighted-density approximation (MWDA)”. One of
the first usages of this approximation and one of the primary inputs is
choosing the appropriate correlated function related to the interaction of the
corresponding sector. For this particular purpose, a different correlated
function has been used – such as PY and PELK functions. In this part, we use
crystalline solid (BCC) and the correlated function spectacularly. Indeed, for
the non-uniform classical fluid, the same approximation of hard spherical
molecules will be considered. Eventually, the application of practical
consequences relevant to this new approach in the resin and color industries
will be surveyed. Besides, we examine the new conditions from the practical
perspectives.
[K.
Heydari. A survey of the liquid-crystal phase transition of a hard
sphere BCC with the optimized spherical approximation based on the modified
weighted density function theory and its application in color science. Life Sci J 2013;10(1):731-738]
(ISSN:1097-8135). http://www.lifesciencesite.com. 114
Keywords: BCC structure; MWDA; WDA; weighted density function; interaction potential; density profile.