Defect evolution and hydrodynamic effects in lamellar ordering process of two-dimensional quenched block copolymers


Autoria(s): Song KX; Sun ZY; An LJ
Data(s)

2009

Resumo

The effects of hydrodynamic interactions on the lamellar ordering process for two-dimensional quenched block copolymers in the presence of extended defects and the topological defect evolutions in lamellar ordering process are numerically investigated by means of a model based on lattice Boltzmann method and self-consistent field theory. By observing the evolution of the average size of domains, it is found that the domain growth is faster with stronger hydrodynamic effects. The morphological patterns formed also appear different. To study the defect evolution, a defect density is defined and is used to explore the defect evolutions in lamellar ordering process. Our simulation results show that the hydrodynamics effects can reduce the density of defects. With our model, the relations between the Flory-Huggins interaction parameter chi, the length of the polymer chains N, and the defect evolutions are studied.

Identificador

http://202.98.16.49/handle/322003/11537

http://www.irgrid.ac.cn/handle/1471x/148007

Idioma(s)

英语

Fonte

Song KX;Sun ZY;An LJ.Defect evolution and hydrodynamic effects in lamellar ordering process of two-dimensional quenched block copolymers,JOURNAL OF CHEMICAL PHYSICS ,2009,130(12):文献编号:124907

Palavras-Chave #LATTICE-BOLTZMANN MODEL #NONIDEAL GASES #BINARY FLUIDS #SPINODAL DECOMPOSITION #PHASE-SEPARATION #COMPLEX FLUIDS #2-PHASE FLOWS #LIQUID-GAS #EQUATION #SIMULATION
Tipo

期刊论文