Simulation of Structural Transition in an Isotropic Melt of Nematic and Smectic Polymers

WSEAS TRANSACTIONS ON SYSTEMS Pub Date : 2024-02-15 DOI:10.37394/23202.2024.23.12
V. Rogozhin, S. Polushin, A. A. Lezova, G. E. Polushina, A. S. Polushin
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Abstract

The isotropic phases of four fractions of a mesogenic comb-shaped polymer were studied using the electric birefringence method. The fractions have either nematic – isotropic melt, or smectic-A – isotropic melt phase transition, depending on the degree of polymerization. All samples showed a structural transition in isotropic phase. Mathematical modeling of the electro-optical properties was performed based on the modified Landau-De Gennes theory using three- order parameters. The reason for the transition in the isotropic phase is the mutual rearrangement of the polar side groups of the polymer as a result of dipole-dipole interaction.
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模拟向列和 Smectic 聚合物各向同性熔体中的结构转变
利用电双折射法研究了中生梳状聚合物四个馏分的各向同性相。根据聚合度的不同,这些馏分要么具有向列-各向同性熔体相转变,要么具有共晶-A-各向同性熔体相转变。所有样品都显示出各向同性相的结构转变。根据修正的朗道-德-吉尼斯理论,利用三阶参数对电光特性进行了数学建模。各向同性相转变的原因是聚合物的极性侧基在偶极-偶极相互作用下发生了相互重排。
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WSEAS TRANSACTIONS ON SYSTEMS
WSEAS TRANSACTIONS ON SYSTEMS
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