黏弹性表面活性剂(Ⅳ)OA
Viscoelastic surfactants(Ⅳ)Dynamic rheology
蠕虫状胶束的动态流变行为是连接微观结构与宏观性能的关键,是黏弹性的最直观反映.本文系统综述了蠕虫状胶束的动态流变特性,重点阐述了线性与非线性动态流变行为规律:线性动态流变以小振幅振荡剪切(SAOS)为核心,黏弹性响应多符合Maxwell模型,可通过宽频测试提取介观结构参数;非线性动态流变(含大振幅振荡剪切(LAOS))中,Wisenberg数Wi>1时会出现剪切带、应变硬化等典型现象,切比雪夫分解法(TDM)与物理过程序列法(SPPM)为主要解析手段.总结了动态流变在油气开采、个人护理、生物医药等领域的应用指导价值,指出介观参数测试依赖模型拟合、非线性普适本构模型缺失等核心难题.最后展望多尺度耦合、原位表征、理论创新与应用导向的未来研究方向,为相关领域精准调控流变性与规模化应用提供参考.
Wormlike micelles(WLMs)feature dynamic rheological behaviors that connect their microstructural dynamics to macroscale performance,underpinning diverse industrial applications.In this review,WLM dynamic rheology was introduced,and the rules in linear and nonlinear dynamic rheological behaviors were elucidated.Unlike steady-state rheology,dynamic rheology is characterized by viscoelastic responses,relaxation kinetics,and structural changes in alternating flow fields,targeting quantitative relationships between rheological parameters,microstructures,and flow conditions.Linear dynamic rheology has been measured by the test of small amplitude oscillatory shear(SAOS),whose viscoelastic responses mostly conform to Maxwell model.The key parameters and mesoscopic structural data are extracted by broadband techniques.Nonlinear behaviors(the Wisenberg number Wi>1)include shear banding,strain hardening,and elastic instabilities,which are characterized by large amplitude oscillatory shear(LAOS)with TDM and SPPM.The understanding of dynamic rheology is valuable to guide the applications of WLMs in oil and gas industry(tunable fracturing fluids),personal care(biodegradable thickeners),biomedicine(stimuli-responsive drug delivery),and smart materials.Core challenges involve model-dependent mesoscopic parameter extraction and lack of universal nonlinear models.Future research should prioritize multi-scale coupling,in-situ characterization,theoretical innovation,and industry-adapted designs to advance WLM commercialization.
冯玉军
四川大学高分子研究所先进高分子材料工程全国重点实验室,四川成都 610065
化学化工
蠕虫状胶束动态流变破裂-重构线性流变学非线性流变学
wormlike micelledynamic rheologybreak-reformlinear rheologynonlinear rheology
《日用化学工业(中英文)》 2026 (4)
425-432,8
国家自然科学基金项目(No.U22A2039521173207)
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