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机构地区:[1]河南工程学院材料与化学工程系,河南郑州450007
出 处:《纺织学报》2015年第10期17-23,共7页Journal of Textile Research
基 金:河南工程学院轻化工程技术研究中心项目(GCZX2013003)
摘 要:为研究液喷纺丝过程中气流场分布和聚合物溶液射流运动对纤维形貌的影响,通过数值模拟分析变压力条件下液喷环形喷嘴下方的气流场分布,采用高速摄影技术捕捉聚丙烯腈(PAN)溶液射流在湍流场中的运动并分析其运动规律。结果表明:随气流压力的增加,气流中心线速度和湍流强度增加;液喷纺PAN微纳米纤维直径逐渐降低并变得均匀,但压力过大会恶化纤维形貌,并伴随着纤维束的出现。液喷纺丝过程中纤维的细化与气流的拉伸作用、聚合物射流的弯曲不稳定性和摆动作用等因素有关。To investigate the influence of airflow field distribution and polymer solution jet motion on the morphology solution-blown fiber, the airflow field distribution below a solution-blowing annular nozzle was numerically simulated using the computational fluid dynamic approach, polyacrylonitrile (PAN) solution motion in the turbulent field was captured with a high-speed camera and the motion law was analyzed. The results show that with the increase of the airflow pressure, the airflow centerline velocity and turbulent intensity increases with the increase of air pressure, the diameters of solution-blown PAN fibers decrease and become more uniform. However, the fiber morphology become worse, with the emergence of some fiber strands under overhigh air pressure. The fiber thinning is correlated with factors such as stretching effects of airflow, bending instability and flapping motion of polymer solution jet, and the like.
关 键 词:液喷 数值模拟 聚合物射流摆动 纤维直径 纤维形貌
分 类 号:TS102.5[轻工技术与工程—纺织工程] TS101.1[轻工技术与工程—纺织科学与工程]
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