HLB与自组织结构的相关性

H. Kunieda, K. Aramaki
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引用次数: 0

摘要

在恒定温度下,随着环氧乙烷(EO)单元数的减少,二元水/聚氧乙烯型非离子表面活性剂体系发生了从正曲线向负曲线自组织结构的相变。每一种表面活性剂的有效横截面积随着EO链长度的减小而减小。基于修正的填料参数理论,讨论了相变机理。油的类型对表面活性剂层曲率的影响可以解释为由于油的渗透和/或膨胀。由于油的作用,表面活性剂在有油存在的情况下,在较窄的温度范围或eo链长度范围内由水溶变为油溶性。这是水-油系统出现高温或深坑的原因。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Correlation of HLB with Self-Organized Structure
Phase transition from a positive to negative-curved self-organized structure was noted to occur in a binary water/polyoxyethylene-type nonionic surfactant system with decrease in the number of ethyleneoxide (EO) units at constant temperature. Effective cross sectional area per each surfactant decreased with reduction in the EO chain length. The mechanism for phase transition is discussed based on the revised packing parameter theory. The effects of oil type on the surfactant layer curvature are explained as due to penetration and/or swelling of oil. Due to the oil effect, surfactant changes from waterto oil-soluble in a narrow range of temperature or EO-chain length in the presence of oil. This is the reason for the appearance of HLB temperature or PIT in water-oil system.
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