%0 Journal Article
%T The Correlation between Reduced Glass Transition Temperature and Glass Forming Ability of Undercooled Polymeric Glasses
%J International Journal of Optoelectronic Engineering
%@ 2167-731X
%D 2012
%I 
%R 10.5923/j.ijoe.20120205.01
%X The thermodynamic behaviour of glass forming undercooled melt have been studied by analysing the temperature dependence of the Gibbs free energy difference (¦¤G) for six polymeric glass forming materials[O-terphenyl, Tri-¦Á-naphthyl benzene, Glycerol, Ethanol, 2-methylpentane and Phenyl salicylate (salol)] between the undercooled melt and the corresponding equilibrium solid phases. The expression obtained by expanding free energies of the undercooled liquid and solid phases of the materials in the form of Taylor¡¯s series expansion. The procedure for the estimation of the ideal glass transition temperature has been reviewed together its importance in the glass forming ability of materials. The glass forming ability of undercooled materials is also explained in terms of ratio of reduced glass transition temperature and ideal glass transition temperature. It has also reported that Glycerol has the largest melting interval with the poorest glass forming ability among these six polymers. It has also been found that the best polymeric glass forming materials are at near eutectic composition. There is a strong correlation between glass forming ability of these polymeric materials.
%K Glass Transition Temperature
%K Undercooled
%K Taylor¡¯s Series Expansion
%K Ideal Glass Transition Temperature
%U http://article.sapub.org/10.5923.j.ijoe.20120205.01.html