Development of ternary phase diagram: optical and mechanical characterization of water/tapioca starch/triton x-100 liquid crystal
Triangle Ternary Phase Diagram can be classified as a diagram that represents the equilibrium between the various liquid crystal (LC) phases that are formed between three components. The optical and mechanical properties of ternary mixtures of Water/Tapioca Starch/Triton X-100 were studied by Pol...
Summary: | Triangle Ternary Phase Diagram can be classified as a diagram that represents the
equilibrium between the various liquid crystal (LC) phases that are formed between three
components. The optical and mechanical properties of ternary mixtures of Water/Tapioca
Starch/Triton X-100 were studied by Polarizing Optical Microscope (POM),
Simultaneous to Wide Angle X-Ray Scattering (SWAXS) and Rheometer. POM and
SWAXS were used for phase identification and structure characterization. Rheometer was
used to investigate the rheological properties of LC. Three different temperatures were
used in this study: 15oC, 25oC and 45oC. Several texture and optical pattern were
examined under the POM. The ternary phase diagram systems obtained in this work tend
to form different LC phases with the increase of concentration and temperature of the
mixtures. Two types of LC were formed namely Lyotropic (LLC) and Thermotropic
(TLC). Lamellar and micelle phase were formed in the LLC while nematic phase was
formed in TLC. Optical investigation was done by examining the change of phase in the
LC according to the change of temperature and amphiphile concentration. The phase
transitions of TLC was found to depend on the temperature, while for the LLC, it depends
on both the temperature and concentration. SWAXS was studied with the finding of
lattice spacing, d value of LC: 96.61 Angstrom for the sample 40:30:30 of Water/Tapioca
Starch/Triton X-100 at 25oC as an example. The values of d are in agreement with the
Bragg’s Law where the values of d increases with increasing temperature. Futhermore,
the viscosity-shear rate-shear stress plot was discussed based to the rheological properties. |
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